Dr. A. J. Eldorado Riggs Profile

Dr. A. J. Eldorado Riggs

Optical Engineer at Jet Propulsion Lab

SPIE Involvement:

Author

Area of Expertise:

high contrast imaging , wavefront control , Fourier optics , wavefront estimation , coronagraphy , exoplanets

Websites:

Company Website

Profile Summary

A J Eldorado Riggs is an optical engineer at NASA's Jet Propulsion Laboratory. He received his PhD in mechanical and aerospace engineering from Princeton University in 2016, and his bachelor's degree in physics and mechanical engineering from Yale University in 2011. His research interests include wavefront estimation and control, deformable mirrors, and coronagraph design for exoplanet imaging. He currently works on coronagraph design and coronagraphic wavefront correction for the WFIRST Coronagraph Instrument.

Publications (115)

SPIE Journal Paper | 20 September 2024 Open Access

Current laboratory performance of starlight suppression systems and potential pathways to desired Habitable Worlds Observatory exoplanet science capabilities

Bertrand Mennesson, Ruslan Belikov, Emiel Por, Eugene Serabyn, Garreth Ruane, A. J. Eldorado Riggs, Dan Sirbu, Laurent Pueyo, Rémi Soummer, Jeremy Kasdin, Stuart Shaklan, Byoung-Joon Seo, Christopher Stark, Eric Cady, Pin Chen, Brendan Crill, Kevin Fogarty, Alexandra Greenbaum, Olivier Guyon, Roser Juanola-Parramon, Brian Kern, John Krist, Bruce Macintosh, David Marx, Dimitri Mawet, Camilo Mejia Prada, Rhonda Morgan, Bijan Nemati, Leonid Pogorelyuk, Susan Redmond, Sara Seager, Nicholas Siegler, Karl Stapelfeldt, Sarah Steiger, John Trauger, James Wallace, Marie Ygouf, Neil Zimmerman

JATIS, Vol. 10, Issue 03, 035004, (September 2024) https://doi.org/10.1117/12.10.1117/1.JATIS.10.3.035004

KEYWORDS: Coronagraphy, Planets, Signal to noise ratio, Telescopes, Point spread functions, Stars, Exoplanets, Wavefronts, Spectroscopy, Design

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We summarize the current best polychromatic (∼10% to 20% bandwidth) contrast performance demonstrated in the laboratory by different starlight suppression approaches and systems designed to directly characterize exoplanets around nearby stars. We present results obtained by internal coronagraph and external starshade experimental testbeds using entrance apertures equivalent to off-axis or on-axis telescopes, either monolithic or segmented. For a given angular separation and spectral bandwidth, the performance of each starlight suppression system is characterized by the values of “raw” contrast (before image processing), off-axis (exoplanet) core throughput, and post-calibration contrast (the final 1-sigma detection limit of off-axis point sources, after image processing). Together, the first two parameters set the minimum exposure time required for observations of exoplanets at a given signal-to-noise, i.e., assuming perfect subtraction of background residuals down to the photon noise limit. In practice, residual starlight speckle fluctuations during the exposure will not be perfectly estimated nor subtracted, resulting in a finite post-calibrated contrast and exoplanet detection limit whatever the exposure time. To place the current laboratory results in the perspective of the future Habitable Worlds Observatory (HWO) mission, we simulate visible observations of a fiducial Earth/Sun twin system at 12 pc, assuming a 6 m (inscribed diameter) collecting aperture and a realistic end-to-end optical throughput. The exposure times required for broadband exo-Earth detection (20% bandwidth around λ=0.55 μm) and visible spectroscopic observations (R=70) are then computed assuming various levels of starlight suppression performance, including the values currently demonstrated in the laboratory. Using spectroscopic exposure time as a simple metric, our results point to key starlight suppression system design performance improvements and trades to be conducted in support of HWO’s exoplanet science capabilities. These trades may be explored via numerical studies, lab experiments, and high-contrast space-based observations and demonstrations.

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Proceedings Article | 24 August 2024 Poster

Dual purpose focal plane masks for contemporaneous wavefront sensing and high-contrast imaging: hardware status

James Kent Wallace, Garreth Ruane, Nasrat Raouf, Tobias Wenger, A.J. Riggs, Jeffrey Jewell, Daniel Shanks

Proceedings Volume 13092, 1309264 (2024) https://doi.org/10.1117/12.3020700

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Proceedings Article | 23 August 2024 Poster + Paper

Revisiting the Borde-Traub focal plane wavefront estimation technique for exoplanet direct imaging

Axel Potier, A. J. Eldorado Riggs, Garreth Ruane, Phillip Poon, Matthew Noyes, Greg Allan, Alexander Walter, Camilo Mejia Prada, Raphaël Galicher, Johan Mazoyer, Pierre Baudoz

Proceedings Volume 13092, 130926E (2024) https://doi.org/10.1117/12.3018289

KEYWORDS: Coronagraphy, Exoplanets, Wavefront sensors

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Proceedings Article | 23 August 2024 Poster + Paper

Coronagraph design survey for future exoplanet direct imaging space missions

Ruslan Belikov, Christopher Stark, Nick Siegler, Emiel Por, Bertrand Mennesson, Susan Redmond, Pin Chen, Kevin Fogarty, Olivier Guyon, Roser Juanola-Parramon, Jeremy Kasdin, John Krist, Dimitri Mawet, Rhonda Morgan, Camilo Mejia Prada, Laurent Pueyo, Garreth Ruane, Dan Sirbu, Karl Stapelfeldt, John Trauger, Neil Zimmerman, Mary Angelie Alagao, Alex Carlotti, Jamal Chafi, David Doleman, Jessica Gersh-Range, Lorenzo König, Lucille Leboulleux, Dwight Moody, A. Riggs, Eugene Serabyn, Frans Snik, Kent Wallace

Proceedings Volume 13092, 1309266 (2024) https://doi.org/10.1117/12.3020614

KEYWORDS: Coronagraphy, Design, Cadmium sulfide, Stars, Telescopes, Exoplanets, Equipment, Yield improvement, Planets, Photonic integrated circuits

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Proceedings Article | 23 August 2024 Poster + Paper

Black silicon BRDF and polarization for coronagraphic pupil masks

Emory Jenkins, Ramya Anche, Kyle Van Gorkom, A. J. Eldorado Riggs, Ewan Douglas

Proceedings Volume 13092, 1309263 (2024) https://doi.org/10.1117/12.3019380

KEYWORDS: Coronagraphy, Bidirectional reflectance transmission function, Reflectivity, Finite-difference time-domain method, Polarization, Black silicon, 3D modeling, Silicon, Diffraction, Computer simulations

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Proceedings Article | 23 August 2024 Presentation + Paper

Demonstration of single-picometer deformable mirror wavefront control using high-resolution electronics

Eduardo Bendek, Greg Allan, Garreth Ruane, Matt Noyes, Camilo Mejia Prada, A. J. Eldorado Riggs, Pedro Godoy

Proceedings Volume 13092, 130921X (2024) https://doi.org/10.1117/12.3017631

KEYWORDS: Actuators, Coronagraphy, Vacuum, Connectors, Control systems, Exoplanets, Wavefronts, Power supplies, Wavefront sensors, Real-time computing, Deformable mirrors, Micromachined deformable membrane mirrors

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Proceedings Article | 23 August 2024 Poster + Paper

A hardware implementation for low-order wavefront sensing and control in exoplanet imaging

John Trauger, J. Kent Wallace, John Krist, A. Riggs, Duncan Liu

Proceedings Volume 13092, 130926C (2024) https://doi.org/10.1117/12.3020600

KEYWORDS: Coronagraphy, Wavefronts, Wavefront errors, Wavefront sensors, Optical components, Exoplanets, Deformable mirrors, Telescopes

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SPIE Journal Paper | 18 July 2024

Comparative laboratory study of electric field conjugation algorithms

Niyati Desai, Axel Potier, Susan Redmond, Garreth Ruane, Phillip Poon, A. J. Eldorado Riggs, Matthew Noyes, Camilo Mejia Prada

JATIS, Vol. 10, Issue 03, 035001, (July 2024) https://doi.org/10.1117/12.10.1117/1.JATIS.10.3.035001

KEYWORDS: Coronagraphy, Electric fields, Scalable video coding, Model based design, Wavefront sensors, Cameras, Spiral phase plates, Wavefronts, Design, Space telescopes

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SPIE Journal Paper | 26 May 2024 Open Access

Implicit electric field conjugation through a single-mode fiber

Joshua Liberman, Jorge Llop-Sayson, Arielle Bertrou-Cantou, Dimitri Mawet, Niyati Desai, Sebastiaan Haffert, A. J. Eldorado Riggs

JATIS, Vol. 10, Issue 02, 029002, (May 2024) https://doi.org/10.1117/12.10.1117/1.JATIS.10.2.029002

KEYWORDS: Single mode fibers, Electric fields, Equipment, Coronagraphy, Telescopes, Space telescopes, Planets, Matrices, Wavefront errors, Device simulation

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SPIE Journal Paper | 14 February 2024

Benefits of adding radial phase dimples on scalar coronagraph phase masks

Niyati Desai, Dimitri Mawet, Eugene Serabyn, Garreth Ruane, Arielle Bertrou-Cantou, Jorge Llop-Sayson, A. J. Eldorado Riggs

JATIS, Vol. 10, Issue 01, 015001, (February 2024) https://doi.org/10.1117/12.10.1117/1.JATIS.10.1.015001

KEYWORDS: Coronagraphy, Spiral phase plates, Monochromatic aberrations, Wavefront aberrations, Wavefronts, Scalable video coding, Phase shifts, Colorimetry, Wavefront errors, Planets

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SPIE Journal Paper | 16 November 2023 Open Access

Hybrid propagation physics for the design and modeling of astronomical observatories: a coronagraphic example

Jaren Ashcraft, Ewan Douglas, Daewook Kim, A. J. Eldorado Riggs

JATIS, Vol. 9, Issue 04, 048003, (November 2023) https://doi.org/10.1117/12.10.1117/1.JATIS.9.4.048003

KEYWORDS: Matrices, Point spread functions, Diffraction, Modeling, Observatories, Ray tracing, Coronagraphy, Physics, Gaussian beams, Design

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SPIE Journal Paper | 11 October 2023 Open Access

End-to-end numerical modeling of the Roman Space Telescope coronagraph

John Krist, John Steeves, Brandon Dube, A.J. Eldorado Riggs, Brian Kern, David Marx, Eric Cady, Hanying Zhou, Ilya Poberezhskiy, Caleb Baker, James McGuire, Bijan Nemati, Gary Kuan, Bertrand Mennesson, John Trauger, Navtej Saini, Sergi Hildebrandt Rafels

JATIS, Vol. 9, Issue 04, 045002, (October 2023) https://doi.org/10.1117/12.10.1117/1.JATIS.9.4.045002

KEYWORDS: Coronagraphy, Actuators, Space telescopes, Numerical modeling, Wavefronts, Modeling, Stars, Monochromatic aberrations, Polarization, Simulations

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Proceedings Article | 5 October 2023 Presentation + Paper

The decadal survey testbed two: a technology development facility for future exo-Earth observatories

Matthew Noyes, Alex Walter, Greg Allan, Garreth Ruane, Eduardo Bendek, Phillip Poon, Camilo Meija Prada, A.J. El Dorado Riggs, Hong Tang, Seth Meeker

Proceedings Volume 12680, 1268017 (2023) https://doi.org/10.1117/12.2676452

KEYWORDS: Coronagraphy, Cameras, Wavefronts, Wavefront sensors, Point spread functions, Electric fields, Vacuum, Thermal stability, Mirrors

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Due to the reporting from the Astro2020: Decadal Survey for Astronomy and Astrophysics, the direct imaging of Earth-like exoplanets has become a leading priority for research and development in astrophysics. In response to this survey, NASA has selected the Habitable Worlds Observatory (HWO) as its next astrophysics flagship mission. However, the current state-of-the-art coronagraph technology is not sufficient to achieve the required contrast (approximately 10⁻¹⁰) with HWO’s proposed configuration. Improving the technology readiness level of coronagraphs for HWO will require extensive research and development. To increase its capacity to support this objective and to provide the community with a new resource to perform versatile coronagraph technology development, NASA’s High Contrast Imaging Testbed (HCIT) facility at the Jet Propulsion Laboratory (JPL) has commissioned the Decadal Survey Testbed 2 (DST2), a state-of-the-art vacuum coronagraph testbed. It’s commissioned architecture incorporates a 2K-actuator Boston Micromachines deformable mirror and a traditional Lyot coronagraph and features a flexible design capable of accommodating different coronagraph technologies including tip/tilt mirrors, segmented apertures, reflective pupils, disturbance injection, wavefront sensing and control, and the integration of additional sources or telescope simulators with minimal reconfiguration. DST2 has repeatably achieved 1 × 10⁻⁹ monochromatic raw contrast, and 3.3 × 10⁻⁹ raw contrast in a 10% bandwidth centered at 550nm in a 180 degree dark hole from 3λ/D to 9λ/D. Additionally, DST2 uses new 20-bit DM electronics capable of a 650 femtometer DM actuator resolution which meets future requirements for HWO. As of August 2023, DST2 has begun operations to meet scientific milestones set by the principal investigators of NASA Strategic Astrophysics Technologies awards. Parallel to these priorities, work to determine contrast limitations will be performed.

Proceedings Article | 5 October 2023 Presentation + Paper

Multi-star wavefront control at the occulting mask coronagraph testbed: monochromatic laboratory demonstration for the Roman Coronagraph instrument

Dan Sirbu, Ruslan Belikov, Eduardo Bendek, David Marx, A. J. Eldorado Riggs, Camilo Mejia Prada, Byoung-Joon Seo, Hanying Zhou

Proceedings Volume 12680, 126800Y (2023) https://doi.org/10.1117/12.2677778

KEYWORDS: Diffraction, Binary stars, Coronagraphy, Stars, Wavefronts, Equipment, Cameras, Vacuum, Planets, Diffraction gratings, Wavefront aberrations

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The Astro2020 decadal survey recommended the Habitable Worlds Observatory (HWO), NASA’s direct imaging flagship mission, with a goal to achieve a statistically robust mission yield of 25 or more potentially habitable exoplanets. One way to achieve is to increase the instrument effectiveness by introducing additional bright, nearby targets. A majority of Sun-like stars have a stellar companion that can introduce additional noise into the field of view of any high-contrast imaging instrument and enabling exoplanet discovery around binary stars represents a path to increased coronagraphic instrument efficiency by increasing the available science target pool of bright nearby stars. This includes both of the Alpha Centauri A and B stars which would represent the top science target for direct imaging if companion leakage could be suppressed. Multi-Star Wavefront Control (MSWC) is a technique that removes stellar leakage from both stellar components, enabling direct imaging of exoplanets in many binary star systems which can potentially increase coronagraphic instrument effectiveness We present the latest testbed results obtained with MSWC as part of the technology development effort focusing on demonstrations conducted on the Occulting Mask Coronagraph (OMC) testbed at JPL during the vacuum test window last winter, with an additional vacuum test planned for this fall. The MSWC mask consists of a shaped pupil mask similar to the one used for the Wide-Field of View mode, but also includes a set of superimposed, regularly spaced dots that serve as a diffraction grating. OMC has a layout similar to the Roman Space Telescope coronagraph instrument and configured with a binary imaging mode with a MSWC mask using same design as the contributed mask for the Roman coronagraph. Our testbed results represent the first demonstrations of this technique using the recently installed full binary source. We present results demonstrating suppression in the Super-Nyquist regime for the third diffraction order reaching 8.7e-9 contrast with the Roman pupil. In addition, we present results obtained with a physical binary source and running MSWC in a binary star regime demonstrating 9.6e-8 contrast for a geometry matching potential Alpha Centauri observations in a 515 nm monochromatic wavelength (similar but bluer than for Band one) using the fifth diffraction order. Planned demonstrations in the upcoming vacuum window this fall will focus on Band 3d and Band 4 using the full MSWC mode for an Alpha Centauri geometry.

Proceedings Article | 5 October 2023 Poster + Paper

Implicit electric field conjugation for improved starlight rejection through a single-mode fiber

Joshua Liberman, Jorge Llop-Sayson, Arielle Bertrou-Cantou, Dimitri Mawet, A.J. Eldorado Riggs, Niyati Desai

Proceedings Volume 12680, 126802D (2023) https://doi.org/10.1117/12.2677532

KEYWORDS: Single mode fibers, Electric fields, Wavefronts, Planets, Coronagraphy, Wavefront errors, Actuators, Telescopes, Equipment, Spatial frequencies

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Proceedings Article | 5 October 2023 Presentation + Paper

Demonstration of coronagraph technology for high-contrast point spectroscopy of ExoEarths

Greg Allan, Garreth Ruane, Alex Walter, A. J. Riggs, Camilo Mejia Prada, Matthew Noyes, Phillip Poon, Jorge Llop-Sayson, Nemanja Jovanovic, Carl Coker, Christopher Stark, Bertrand Mennesson, Dimitri Mawet

Proceedings Volume 12680, 1268019 (2023) https://doi.org/10.1117/12.2676876

KEYWORDS: Coronagraphy, Planets, Spectroscopy, Electric fields, Calibration, Actuators, Stars, Measurement uncertainty, Equipment, Cameras

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Proceedings Article | 5 October 2023 Presentation + Paper

Experimental demonstration of spectral linear dark field control at NASA’s high contrast imaging testbeds

Phillip Poon, Axel Potier, Garreth Ruane, Alex Walter, A. J. Eldorado Riggs, Matthew Noyes, Camilo Mejia Prada, Kyohoon Ahn, Olivier Guyon

Proceedings Volume 12680, 126801G (2023) https://doi.org/10.1117/12.2677806

KEYWORDS: Coronagraphy, Calibration, Matrices, Wavefront sensors, Cameras, Actuators, Stars, Wavefronts, Wavefront errors, Singular value decomposition

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Proceedings Article | 5 October 2023 Presentation + Paper

Experimental comparison of model-free and model-based dark hole algorithms for future space telescopes

Niyati Desai, Axel Potier, Garreth Ruane, Phillip Poon, A. J. Riggs, Matthew Noyes, Camilo Mejia Prada

Proceedings Volume 12680, 1268015 (2023) https://doi.org/10.1117/12.2677040

KEYWORDS: Coronagraphy, Wavefront sensors, Space telescopes, Planets

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Proceedings Article | 5 October 2023 Presentation + Paper

FALCO simulations of high-contrast polarimetry with the Nancy Grace Roman Space Telescope coronagraph instrument

David Doelman, Hanae Belaouchi, A.J. Riggs, Bertrand Mennesson, Mireille Ouellet, Rob van Holstein, Jeroen Rietjens, Henk Hoevers, Frans Snik

Proceedings Volume 12680, 126800V (2023) https://doi.org/10.1117/12.2677450

KEYWORDS: Mueller matrices, Polarization, Polarimetry, Planets, Coronagraphy, Simulations, Pupil aberrations, Wave plates, Space telescopes

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Proceedings Article | 5 October 2023 Presentation + Paper

High contrast spectroscopy testbed (HCST): experimental results with an apodized vortex coronagraph

A. Bertrou-Cantou, J. Llop-Sayson, J. Liberman, D. Mawet, J. G. Hagopian, G. Ruane, A. J. Eldorado Riggs, E. Serabyn

Proceedings Volume 12680, 126801B (2023) https://doi.org/10.1117/12.2677902

KEYWORDS: Coronagraphy, Image segmentation, Apodization, Telescopes, Spectroscopy, Point spread functions, Simulations, Diffraction, Design and modelling, Reflection

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Proceedings Article | 5 October 2023 Poster + Paper

Coralign: a software package for coronagraphic alignment and calibration

A. J. Eldorado Riggs, Michael Bertagna, Garreth Ruane, Eric Cady, David Marx, Sam Halverson, Samuel Miller, Kevin Ludwick

Proceedings Volume 12680, 126802F (2023) https://doi.org/10.1117/12.2677703

KEYWORDS: Coronagraphy, Calibration, Wavefronts, Actuators, Point spread functions, Equipment, Phase retrieval, Open source software, Automatic alignment, Fourier transforms

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Proceedings Article | 5 October 2023 Presentation + Paper

Dual purpose lyot coronagraph masks for simultaneous high-contrast imaging and high-resolution wavefront sensing

G. Ruane, J. K. Wallace, A. J. E. Riggs, T. Wenger, M. Bagheri, J. Jewell, N. Raouf, G. Allan, C. Mejia Prada, M. Noyes, A. Walter

Proceedings Volume 12680, 1268018 (2023) https://doi.org/10.1117/12.2676853

KEYWORDS: Wavefront sensors, Coronagraphy, Coating, Reflection, Aluminum, Design and modelling, Phase shifts, Cameras, Wavefronts, Manufacturing

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Proceedings Article | 5 October 2023 Poster + Paper

Achromatizing scalar vortex coronagraphs with radial phase mask dimples

Niyati Desai, Arielle Bertrou-Cantou, Garreth Ruane, Jorge Llop-Sayson, A. J. Eldorado Riggs, Eugene Serabyn, Dimitri Mawet

Proceedings Volume 12680, 126802B (2023) https://doi.org/10.1117/12.2677224

KEYWORDS: Coronagraphy, Wavefronts, Phase shifts, Stars, Spiral phase plates, Polarization, Planets

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Proceedings Article | 4 October 2023 Presentation + Paper

Design and fabrication of metasurfaces for wavefront sensing and high-contrast imaging in the visible

T. Wenger, J. Wallace, G. Ruane, J. Jewell, A. J. Riggs, N. Raouf

Proceedings Volume 12646, 1264604 (2023) https://doi.org/10.1117/12.2677961

KEYWORDS: Wavefront sensors, Reflection, Design and modelling, Coronagraphy, Fabrication, Polymethylmethacrylate, Aluminum, Exoplanets, Wavefronts, Titanium dioxide

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Proceedings Article | 28 September 2023 Presentation + Paper

Poke: an open-source, ray-based physical optics platform

Jaren Ashcraft, Ewan Douglas, Daewook Kim, A. J. Riggs, Ramya Anche, Trent Brendel, Kevin Derby, Brandon Dube, Quinn Jarecki, Emory Jenkins, Kian Milani

Proceedings Volume 12664, 1266404 (2023) https://doi.org/10.1117/12.2678001

KEYWORDS: Ray tracing, Polarization, Diffraction, Modeling, Thin films, Interfaces, Simulations, Design and modelling, Wavefronts, Telescopes

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SPIE Journal Paper | 24 May 2023 Open Access

Random vibration testing of microelectromechanical deformable mirrors for space-based high-contrast imaging

Axel Potier, Camilo Mejia Prada, Garreth Ruane, Hong Tang, Wesley Baxter, Duncan Liu, A. J. Eldorado Riggs, Phillip K. Poon, Eduardo Bendek, Nick Siegler, Mary Soria, Mark Hetzel, Charlie Lam, Paul Bierden

JATIS, Vol. 9, Issue 02, 029001, (May 2023) https://doi.org/10.1117/12.10.1117/1.JATIS.9.2.029001

KEYWORDS: Actuators, Microelectromechanical systems, Vibration, Deformation, Coronagraphy, Connectors, Inspection, Exoplanets, Deformable mirrors, Equipment

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SPIE Journal Paper | 8 April 2023

Laboratory demonstration of the wrapped staircase scalar vortex coronagraph

Niyati Desai, Garreth Ruane, Jorge Llop-Sayson, Arielle Betrou-Cantou, Axel Potier, A.J. Eldorado Riggs, Eugene Serabyn, Dimitri Mawet

JATIS, Vol. 9, Issue 02, 025001, (April 2023) https://doi.org/10.1117/12.10.1117/1.JATIS.9.2.025001

KEYWORDS: Scalable video coding, Coronagraphy, Design and modelling, Spiral phase plates, Exoplanets, Wavefronts, Stars, Modal decomposition, Colorimetry, Polarization

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Proceedings Article | 29 August 2022 Poster

Update on the survivability of high-actuator-count MEMS deformable mirror to rocket launch.

Axel Potier, Garreth Ruane, Camilo Mejia Prada, Wesley Baxter, Duncan Liu, Hong Tang, A.J. Eldorado Riggs, Phillip Poon, Eduardo Bendek, Nick Siegler, Mary Soria, Mark Hetzel, Charlie Lam, Paul Bierden

Proceedings Volume 12180, 121805S (2022) https://doi.org/10.1117/12.2629915

KEYWORDS: Microelectromechanical systems, Deformable mirrors, Rockets, Exoplanets, Coronagraphy, Wavefronts, Reliability, Manufacturing, Astrophysics, Astronomy

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Proceedings Article | 27 August 2022 Presentation + Paper

Roman coronagraph instrument: engineering overview and status

Ilya Poberezhskiy, Kathryn Heydorff, Thomas Luchik, Feng Zhao, Eric Cady, Gasia Bedrosian, Mark Colavita, Brandon Creager, Renaud Goullioud, Tyler Groff, Amanda Grue, Brian Monacelli, Patrick Morrissey, Joshua Kempenaar, Brian Kern, Matthew King, Timothy Koch, John Krist, Gary Kuan, Jonathan Lam, Dorothy Lewis, Fai Mok, David Muliere, Bijan Nemati, Charley Noecker, Jeffrey Oseas, A.J. Riggs, Fang Shi, Belinda Shreckengost

Proceedings Volume 12180, 121801X (2022) https://doi.org/10.1117/12.2630540

KEYWORDS: Coronagraphy, Electronics, Cameras, Interfaces, Mirrors, Control systems, Optical alignment, Observatories, Space operations, Optical benches

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Proceedings Article | 27 August 2022 Poster + Paper

Topological designs for scalar vortex coronagraphs

Niyati Desai, Jorge Llop-Sayson, Arielle Bertrou-Cantou, Garreth Ruane, A.J. Eldorado Riggs, Eugene Serabyn, Dimtiri Mawet

Proceedings Volume 12180, 121805H (2022) https://doi.org/10.1117/12.2630950

KEYWORDS: Coronagraphy, Spiral phase plates, Exoplanets, Optical vortices

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Proceedings Article | 27 August 2022 Poster + Paper

Contrast performance of an 8m off-axis, segmented space telescope equipped with an adaptive optics system

Axel Potier, Garreth Ruane, Kiarash Tajdaran, Chris Stark, Pin Chen, Larry Dewell, Roser Juanola-Parramon, Alison Nordt, Laurent Pueyo, A.J. Eldorado Riggs, David Redding, Dan Sirbu

Proceedings Volume 12180, 121805D (2022) https://doi.org/10.1117/12.2629902

KEYWORDS: Coronagraphy, Adaptive optics, Telescopes, Stars, Image segmentation, Wavefront sensors, Space telescopes, Performance modeling, Wavefronts, Mirrors

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Proceedings Article | 27 August 2022 Presentation + Paper

The Roman Space Telescope coronagraph technology demonstration: current status and relevance to future missions

B. Mennesson, V. Bailey, R. Zellem, S. Hildebrandt, M. Ygouf, J. Rhodes, N. Zimmerman, B. Nemati, G. Gonzalez, E. Cady, B. Kern, T. Koch, J. Krist, K. Heydorff, T. Luchik, F. Mok, P. Morrissey, I. Poberezhskiy, A. Riggs, F. Shi, F. Zhao, R. Akeson, L. Armus, A. Greenbaum, J. Ingalls, P. Lowrance

Proceedings Volume 12180, 121801W (2022) https://doi.org/10.1117/12.2629176

KEYWORDS: Coronagraphy, Wavefront sensors, Electron multiplying charge coupled devices, Imaging spectroscopy, Wavefronts, Stars, Spectroscopy, Performance modeling, Cameras, Observatories

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Proceedings Article | 27 August 2022 Presentation + Paper

Broadband vector vortex coronagraph testing at NASA’s high contrast imaging testbed facility

Garreth Ruane, A. J. Eldorado Riggs, Eugene Serabyn, Wesley Baxter, Camilo Mejia Prada, Dimitri Mawet, Matthew Noyes, Phillip Poon, Nelson Tabiryan

Proceedings Volume 12180, 1218024 (2022) https://doi.org/10.1117/12.2628972

KEYWORDS: Coronagraphy, Exoplanets

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Proceedings Article | 27 August 2022 Poster + Paper

High-contrast demonstration of a vector vortex coronagraph with a segmented, off-axis aperture

A.J. Eldorado Riggs, Garreth Ruane, Eugene Serabyn, Wesley Baxter, Jorge Llop-Sayson, Camilo Mejia Prada, Dimitri Mawet, Matthew Noyes, Phillip Poon, Nelson Tabiryan

Proceedings Volume 12180, 121805I (2022) https://doi.org/10.1117/12.2630130

KEYWORDS: Coronagraphy, Wavefronts, Polarization, Exoplanets, Diffraction, Wave plates, Observatories, Deformable mirrors

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Proceedings Article | 27 August 2022 Presentation + Paper

Initial laboratory demonstration of multi-star wavefront control at the occulting mask coronagraph testbed

Dan Sirbu, Ruslan Belikov, Eduardo Bendek, David Marx, A.J. Eldorado Riggs, Garreth Ruane, Camilo Mejia Prada, Brian Kern

Proceedings Volume 12180, 121802A (2022) https://doi.org/10.1117/12.2630639

KEYWORDS: Diffraction, Stars, Wavefronts, Coronagraphy, Photomasks, Cameras, Speckle, Manufacturing, Control systems, Imaging systems

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SPIE Journal Paper | 31 May 2022 Open Access

Flight designs and pupil error mitigation for the bowtie shaped pupil coronagraph on the Nancy Grace Roman Space Telescope

Jessica Gersh-Range, A.J. Eldorado Riggs, N. Jeremy Kasdin

JATIS, Vol. 8, Issue 02, 025003, (May 2022) https://doi.org/10.1117/12.10.1117/1.JATIS.8.2.025003

KEYWORDS: Telescopes, Tolerancing, Coronagraphy, Optical instrument design, Lab on a chip, Source mask optimization, Exoplanets, Actuators, Spectroscopy, Error analysis

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SPIE Journal Paper | 7 April 2022

Laboratory demonstration of wavefront control through a single-mode fiber over a 20% bandwidth for the characterization of exoplanet atmospheres

Jorge Llop-Sayson, Carl Coker, Nemanja Jovanovic, Dimitri Mawet, Garreth Ruane, A J Eldorado Riggs, Daniel Echeverri

JATIS, Vol. 8, Issue 02, 029001, (April 2022) https://doi.org/10.1117/12.10.1117/1.JATIS.8.2.029001

KEYWORDS: Single mode fibers, Wavefronts, Point spread functions, Coronagraphy, Planets, Exoplanets, Stars, Cameras, Polarization, Actuators

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SPIE Journal Paper | 16 March 2022

Dark hole maintenance with modal pairwise probing in numerical simulations of Roman coronagraph instrument

Leonid Pogorelyuk, John Krist, Bijan Nemati, A. J. Eldorado Riggs, Sam Miller, Laurent Pueyo, N. Jeremy Kasdin, Kerri Cahoy

JATIS, Vol. 8, Issue 01, 019002, (March 2022) https://doi.org/10.1117/12.10.1117/1.JATIS.8.1.019002

KEYWORDS: Stars, Wavefronts, Numerical simulations, Sensors, Coronagraphy, Error analysis, Telescopes, Polarization, Electron multiplying charge coupled devices, Speckle

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We propose an efficient approach for focal-plane wavefront estimation for high-contrast imaging. It is designed for very low photon flux regimes with the Roman Space Telescope Coronagraph Instrument in mind. During days-long exposures of Roman, the starlight wavefront will drift due to the thermal instabilities of the optical tube assembly (OTA) and deformable mirror (DM) actuators. To correct the drift in high-order spatial wavefront modes, Roman will periodically be pointed to a bright reference star to sense the speckles in the dark hole (the high-contrast region of the image) and correct them. However, this maneuver decreases observation time by several hours a day and may lead to wavefront instability by causing structural and thermal stresses on the OTA. Instead, we propose maintaining the dark hole using the DM to modulate (probe) the speckles while observing the target star. Our proposed algorithm can then be used to directly estimate the DM commands that would create such speckles, rather than first estimating the electric field of the speckles. Applying the opposite commands on the DM reduces the intensity of the speckles without slewing to the reference star. Further, we analyze this dark-hole maintenance approach using data from Roman Observing Scenario 9 (OS9) simulations while assuming that the high-order wavefront control on Roman will be carried out from the Earth (ground-in-the-loop). In our simulations of Roman’s Hybrid Lyot Coronagraph, the high-order wavefront errors were sensed and corrected while observing a dim target, 47 UMa. Despite the DM probes, the photon flux in the dark hole remained close to that in OS9 and well below detector noise. In terms of planet-detectability, dark hole maintenance kept the post-processing contrast within 10% of OS9’s, even after pointing the telescope at the target star for 6 days. The OTA stability that dark hole maintenance provides compared to slewing the telescope potentially outweighs the small negative impact it has on the contrast.

SPIE Journal Paper | 26 February 2022

Coronagraph design with the electric field conjugation algorithm

Jorge Llop-Sayson, A. J. Eldorado Riggs, Dimitri Mawet, Dwight Moody, Brian Kern, Erkin Sidick

JATIS, Vol. 8, Issue 01, 015003, (February 2022) https://doi.org/10.1117/12.10.1117/1.JATIS.8.1.015003

KEYWORDS: Coronagraphy, Dielectrics, Actuators, Point spread functions, Planets, Wavefronts, Metals, Optical instrument design, Optical components, Stars

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Proceedings Article | 3 September 2021 Presentation + Paper

LUVOIR-ECLIPS closed-loop adaptive optics performance and contrast predictions

Axel Potier, Garreth Ruane, Pin Chen, Ankur Chopra, Larry Dewell, Roser Juanola Parramon, Alison Nordt, Laurent Pueyo, David Redding, AJ Eldorado Riggs, Dan Sirbu

Proceedings Volume 11823, 118231L (2021) https://doi.org/10.1117/12.2595116

KEYWORDS: Adaptive optics, Wavefronts, Wavefront sensors, Telescopes, Principal component analysis, Coronagraphy, Exoplanets

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Proceedings Article | 1 September 2021 Presentation + Paper

The Twin decadal survey testbeds in the high contrast imaging testbed facility at NASA’s jet propulsion laboratory

Seth Meeker, Matthew Noyes, Hong Tang, Garreth Ruane, Camilo Mejia Prada, Eduardo Bendek, Wesley Baxter, Brendan Crill, A. J. Eldorado Riggs, Phillip Poon, Nicholas Siegler

Proceedings Volume 11823, 118230Y (2021) https://doi.org/10.1117/12.2594668

KEYWORDS: Coronagraphy, Wavefronts, Exoplanets, Data modeling, Microelectromechanical systems, Wavefront sensors

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Proceedings Article | 1 September 2021 Presentation + Paper

Deriving deformable mirror performance requirements in simulation

Phillip Poon, A. J. Eldorado Riggs, Garreth Ruane, Eduardo Bendek, Camilo Mejia Prada, Matthew Noyes, Santos Fregoso, Dean Palmer

Proceedings Volume 11823, 118230L (2021) https://doi.org/10.1117/12.2594742

KEYWORDS: Actuators, Electronics, Coronagraphy, Deformable mirrors, Wavefront sensors, Wavefronts

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Proceedings Article | 1 September 2021 Presentation + Paper

Initial super-Nyquist wavefront control experiments in the Decadal Survey Testbed

A. J. Eldorado Riggs, Garreth Ruane, Dan Sirbu, Ruslan Belikov, Eduardo Bendek

Proceedings Volume 11823, 118231P (2021) https://doi.org/10.1117/12.2594800

KEYWORDS: Coronagraphy, Exoplanets, Stray light, Diffraction

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Proceedings Article | 1 September 2021 Presentation + Paper

Enabling binary stars high-contrast imaging on the Roman Space Telescope coronagraph instrument

Eduardo Bendek, Ruslan Belikov, Dan Sirbu, Garreth Ruane, A. J. Eldorado Riggs, Bala Balasubramanian, Camilo Mejia Prada, Eugene Pluzhnyk

Proceedings Volume 11823, 1182311 (2021) https://doi.org/10.1117/12.2594992

KEYWORDS: Stars, Coronagraphy, Wavefronts, Diffraction, Planets, Telescopes, Control systems, Speckle

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Proceedings Article | 1 September 2021 Poster + Paper

Flight mask designs of the Roman Space Telescope coronagraph instrument

A. J. Eldorado Riggs, Vanessa Bailey, Dwight Moody, Erkin Sidick, Kunjithapatham Balasubramanian, Douglas Moore, Daniel Wilson, Garreth Ruane, Dan Sirbu, Jessica Gersh-Range, John Trauger, Bertrand Mennesson, Nicholas Siegler, Eduardo Bendek, Tyler Groff, Neil Zimmerman, John Debes, Scott Basinger, N. Jeremy Kasdin

Proceedings Volume 11823, 118231Y (2021) https://doi.org/10.1117/12.2598599

KEYWORDS: Coronagraphy, Photomasks, Exoplanets, Polarimetry, Spectroscopy, Space telescopes

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Proceedings Article | 1 September 2021 Presentation + Paper

High contrast imaging with MEMS deformable mirrors in the Decadal Survey Testbed

A. J. Eldorado Riggs, Garreth Ruane, Camilo Mejia Prada, David Marx, Byoung-Joon Seo

Proceedings Volume 11823, 118230S (2021) https://doi.org/10.1117/12.2593459

KEYWORDS: Coronagraphy, Microelectromechanical systems, Exoplanets, Deformable mirrors, Data modeling

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Proceedings Article | 5 August 2021 Presentation

Numerical Simulation of Dark Hole Maintenance and its Impact on Planet Detection for Roman Coronagraph Instrument Based on OS 9

Leonid Pogorelyuk, John Krist, Bijan Nemati, A. J. Riggs, Sam Miller, Laurent Pueyo, Jeremy Kasdin, Kerri Cahoy

Proceedings Volume 11823, 118230Z (2021) https://doi.org/10.1117/12.2594679

KEYWORDS: Wavefronts, Planets, Numerical simulations, Telescopes, Actuators, Wavefront sensors, Thermography, Stars, Space telescopes, Sensors

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Proceedings Article | 12 January 2021 Presentation + Paper

Roman space telescope coronagraph: engineering design and operating concept

Ilya Poberezhskiy, Thomas Luchik, Feng Zhao, Margaret Frerking, Scott Basinger, Eric Cady, M. Mark Colavita, Brandon Creager, Nanaz Fathpour, Renaud Goullioud, Tyler Groff, Patrick Morrissey, Joshua Kempenaar, Brian Kern, Timothy Koch, John Krist, Fai Mok, David Muliere, Bijan Nemati, A.J. Riggs, Byoung-Joon Seo, Fang Shi, Belinda Shreckengost, John Steeves, Hong Tang

Proceedings Volume 11443, 114431V (2021) https://doi.org/10.1117/12.2563480

KEYWORDS: Infrared telescopes, James Webb Space Telescope, Telescopes, Coronagraphy, Infrared radiation, Instrumentation engineering, Optical instrument design, Wavefronts, Imaging spectroscopy, Infrared imaging

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Proceedings Article | 16 December 2020 Poster + Paper

A review of simulation and performance modeling tools for the Roman coronagraph instrument

Ewan Douglas, Jaren Ashcraft, Ruslan Belikov, John Debes, Jeremy Kasdin, John Krist, Brianna Lacy, Bijan Nemati, Kian Milani, Leonid Pogorelyuk, A.J. Eldorado Riggs, Dmitry Savransky, Dan Sirbu

Proceedings Volume 11443, 1144338 (2020) https://doi.org/10.1117/12.2561960

KEYWORDS: Device simulation, Coronagraphy, Performance modeling, Exoplanets, Aerospace engineering, Diffraction, Instrument modeling, Speckle, Signal to noise ratio

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Proceedings Article | 15 December 2020 Presentation + Paper

The Nancy Grace Roman Space Telescope Coronagraph Instrument (CGI) technology demonstration

N. Jeremy Kasdin, Vanessa Bailey, Bertrand Mennesson, Robert Zellem, Marie Ygouf, Jason Rhodes, Thomas Luchik, Feng Zhao, A. J. Eldorado Riggs, Byoung-Joon Seo, John Krist, Brian Kern, Hong Tang, Bijan Nemati, Tyler Groff, Neil Zimmerman, Bruce Macintosh, Margaret Turnbull, John Debes, Ewan Douglas, Roxana Lupu

Proceedings Volume 11443, 114431U (2020) https://doi.org/10.1117/12.2562997

KEYWORDS: Coronagraphy, Imaging spectroscopy, Planets, Infrared telescopes, James Webb Space Telescope, Imaging systems, Wavefronts, Algorithm development, Jupiter, Infrared radiation

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Proceedings Article | 13 December 2020 Presentation + Paper

Experimental analysis of the achromatic performance of a vector vortex coronagraph

Garreth Ruane, Eugene Serabyn, Camilo Mejia Prada, Wesley Baxter, Eduardo Bendek, Dimitri Mawet, A. J. Eldorado Riggs

Proceedings Volume 11443, 114432O (2020) https://doi.org/10.1117/12.2561593

KEYWORDS: Coronagraphy, Liquid crystals, Spectroscopes, Exoplanets, Planets, Stars, Visible radiation, Control systems, Deformable mirrors, Manufacturing

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Proceedings Article | 13 December 2020 Poster + Paper

Prediction and evaluation of the image of the WFIRST coronagraph pupil at the shaped-pupil mask

David Marx, Brian Kern, John Krist, Bala Balasubramanian, A. J. Eldorado Riggs, Byoung-Joon Seo, Eric Cady, Hong Tang, Camilo Prada, Garreth Ruane, Fang Shi, Charley Noecker, Blake Crowther

Proceedings Volume 11443, 1144339 (2020) https://doi.org/10.1117/12.2562629

KEYWORDS: Coronagraphy, Image analysis, Telescopes, Optical instrument design, Optimization (mathematics), Wavefronts, Deformable mirrors, Modulation, Tolerancing, Performance modeling

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Proceedings Article | 13 December 2020 Poster

Laboratory testing of multi-star wavefront control with a coronagraph

Ruslan Belikov, Dan Sirbu, Eduardo Bendek, Eugene Pluzhnik, Garreth Ruane, A.J. Riggs, Julien Lozi, Olivier Guyon

Proceedings Volume 11443, 114434B (2020) https://doi.org/10.1117/12.2563109

KEYWORDS: Coronagraphy, Wavefronts, Stars, Planets, Control systems, Space telescopes, Light sources, Deformable mirrors, Speckle, Computer simulations

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SPIE Journal Paper | 9 November 2020

Wavefront sensing and control in space-based coronagraph instruments using Zernike’s phase-contrast method

Garreth Ruane, James Kent Wallace, John Steeves, Camilo Mejia Prada, Byoung-Joon Seo, Eduardo Bendek, Carl Coker, Pin Chen, Brendan Crill, Jeff Jewell, Brian Kern, David Marx, Phillip Poon, David Redding, A. J. Eldorado Riggs, Nicholas Siegler, Robert Zimmer

JATIS, Vol. 6, Issue 04, 045005, (November 2020) https://doi.org/10.1117/12.10.1117/1.JATIS.6.4.045005

KEYWORDS: Coronagraphy, Wavefronts, Stars, Actuators, Wavefront sensors, Space telescopes, Cameras, Equipment, Wavefront errors, Wavefront aberrations

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SPIE Journal Paper | 7 October 2020

Microelectromechanical deformable mirror development for high-contrast imaging, part 1: miniaturized, flight-capable control electronics

Eduardo Bendek, Garreth Ruane, Camilo Mejia Prada, Christopher Mendillo, A.J. Eldorado Riggs, Eugene Serabyn

JATIS, Vol. 6, Issue 04, 045001, (October 2020) https://doi.org/10.1117/12.10.1117/1.JATIS.6.4.045001

KEYWORDS: Actuators, Electronics, Microelectromechanical systems, Coronagraphy, Deformable mirrors, Control systems, Exoplanets, Power supplies, Wavefronts, Stars

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Deformable mirrors (DMs) are a critical technology to enable coronagraphic direct imaging of exoplanets with current and planned ground- and space-based telescopes as well as future mission concepts, such as the Habitable Exoplanet Observatory and the Large UV/Optical/IR Surveyor. The latter concepts aim to image exoplanet types ranging from gas giants to Earth analogs. This places several requirements on the DMs such as requires a large actuator count (≳3000), fine surface height resolution (≲10 pm), and radiation hardened driving electronics with low mass and volume. We present the design and testing of a flight-capable, miniaturized DM controller. Having achieved contrasts on the order of 5 × 10 − 9 on a coronagraph testbed in vacuum in the high contrast imaging testbed facility at NASA’s Jet Propulsion Laboratory (JPL), we demonstrate that the electronics are capable of meeting the requirements of future coronagraph-equipped space telescopes. We also report on functionality testing on-board the high-altitude balloon experiment “Planetary Imaging Concept Testbed Using a Recoverable Experiment – Coronagraph,” which aims to directly image debris disks and exozodiacal dust around nearby stars. The controller is designed for the Boston Micromachines Corporation Kilo-DM and is readily scalable to larger DM formats. The three main components of the system (the DM, driving electronics, and mechanical and heat management) are designed to be compact and have low-power consumption to enable its use not only on exoplanet missions, but also in a wide-range of applications that require precision optical systems, such as direct line-of-sight laser communications. The controller is capable of handling 1024 actuators with 220 V maximum dynamic range, 16-bit resolution, 14-bit accuracy, and 1 kHz operating frequency. The system fits in a 10 × 10 × 5 cm3 volume, weighs <0.5 kg, and consumes <8 W. We have developed a turnkey solution reducing the risk for future missions, lowering their cost by significantly reducing volume, weight, and power consumption of the wavefront control hardware.

SPIE Journal Paper | 7 October 2020

Microelectromechanical deformable mirror development for high-contrast imaging, part 2: the impact of quantization errors on coronagraph image contrast

Garreth Ruane, Daniel Echeverri, Eduardo Bendek, Brian Kern, David Marx, Dimitri Mawet, Camilo Mejia Prada, A.J. Eldorado Riggs, Byoung-Joon Seo, Eugene Serabyn, Stuart Shaklan

JATIS, Vol. 6, Issue 04, 045002, (October 2020) https://doi.org/10.1117/12.10.1117/1.JATIS.6.4.045002

KEYWORDS: Quantization, Coronagraphy, Actuators, Microelectromechanical systems, Deformable mirrors, Electronics, Control systems, Wavefronts, Stars, Error analysis

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SPIE Journal Paper | 16 September 2020 Open Access

Design, pointing control, and on-sky performance of the mid-infrared vortex coronagraph for the VLT/NEAR experiment

Anne-Lise Maire, Elsa Huby, Olivier Absil, Gérard Zins, Markus Kasper, Christian Delacroix, Serban Leveratto, Mikael Karlsson, Garreth Ruane, Hans-Ulrich Käufl, Gilles Orban de Xivry, Prashant Pathak, Lorenzo Pettazzi, Philippe Duhoux, Johann Kolb, Éric Pantin, A. J. Eldorado Riggs, Ralf Siebenmorgen, Dimitri Mawet

JATIS, Vol. 6, Issue 03, 035003, (September 2020) https://doi.org/10.1117/12.10.1117/1.JATIS.6.3.035003

KEYWORDS: Coronagraphy, Mid-IR, Stars, Adaptive optics, Telescopes, Point spread functions, Error analysis, Device simulation, Image analysis, Sensors

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SPIE Journal Paper | 23 October 2019

Simulations of a high-contrast single-mode fiber coronagraphic multiobject spectrograph for future space telescopes

Carl Coker, Stuart Shaklan, A. J. Eldorado Riggs, Garreth Ruane

JATIS, Vol. 5, Issue 04, 045003, (October 2019) https://doi.org/10.1117/12.10.1117/1.JATIS.5.4.045003

KEYWORDS: Coronagraphy, Single mode fibers, Spectrographs, Astronomical imaging, Wavefronts, Stars, Monochromatic aberrations, Signal to noise ratio, Telescopes, Device simulation

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Proceedings Article | 13 September 2019 Paper

Critical characteristics of coronagraph masks influencing high contrast performance

Kunjithapatham Balasubramanian, Byoung-Joon Seo, Keith Patterson, Camilo Mejia Prada, A.J. Eldorado Riggs, Hanying Zhou, Dwight Moody, Eric Cady, Victor White, Karl Yee, Richard Muller, Pierre Echternach, Frank Greer, Daniel Wilson

Proceedings Volume 11117, 111171H (2019) https://doi.org/10.1117/12.2530825

KEYWORDS: Coronagraphy, Tolerancing, Dispersion

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Proceedings Article | 9 September 2019 Paper

Scalar vortex coronagraph mask design and predicted performance

Garreth Ruane, Dimitri Mawet, A.J. Eldorado Riggs, Eugene Serabyn

Proceedings Volume 11117, 111171F (2019) https://doi.org/10.1117/12.2528625

KEYWORDS: Coronagraphy, Space telescopes, Multilayers, Liquid crystals, Polymers, Spiral phase plates, Dielectric polarization, Exoplanets, Optical vortices, Circular polarizers

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Proceedings Article | 9 September 2019 Presentation + Paper

Directly constraining low-order aberration sensitivities in the WFIRST coronagraph design

A.J. Eldorado Riggs, Garreth Ruane, Brian Kern

Proceedings Volume 11117, 111170F (2019) https://doi.org/10.1117/12.2529588

KEYWORDS: Coronagraphy, Exoplanets, Diffraction, Optical instrument design, Telescopes, Polarization

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Proceedings Article | 9 September 2019 Presentation + Paper

WFIRST Phase B HLC occulter mask baselining and testbed WFC performance validation

Hanying Zhou, John Krist, Brian Kern, Byoung-Joon Seo, Eric Cady, Bijan Nemati, Dwight Moody, A.J. Eldorado Riggs, David Marx, Daniel Wilson, Kunjithapatham Balasubramanian, Ilya Poberezhskiy, Scott Basinger

Proceedings Volume 11117, 111170H (2019) https://doi.org/10.1117/12.2530672

KEYWORDS: Wavefronts, Tolerancing, Coronagraphy, Telescopes, Performance modeling, Control systems, Mask making, Optical instrument design, Aerospace engineering, Space operations

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Proceedings Article | 9 September 2019 Presentation + Paper

The high-contrast spectroscopy testbed for segmented telescopes (HCST): new wavefront control demonstrations

Jorge Llop-Sayson, Garreth Ruane, Nemanja Jovanovic, Dimitri Mawet, Daniel Echeverri, A.J. Eldorado Riggs, Carl Coker, Grady Morrissey, He Sun

Proceedings Volume 11117, 111171W (2019) https://doi.org/10.1117/12.2530670

KEYWORDS: Spectroscopy, Telescopes, Wavefronts, Image segmentation, Exoplanets, Imaging spectroscopy, Optical instrument design, Space telescopes, Wavefront sensors, MATLAB

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Proceedings Article | 9 September 2019 Presentation + Paper

The LUVOIR Extreme Coronagraph for Living Planetary Systems (ECLIPS) I: searching and characterizing exoplanetary gems

L. Pueyo, C. Stark, R. Juanola-Parramon, N. Zimmerman, M. Bolcar, A. Roberge, G. Arney, G. Ruane, A. Riggs, R. Belikov, D. Sirbu, D. Redding, R. Soummer, I. Laginja, S. Will

Proceedings Volume 11117, 1111703 (2019) https://doi.org/10.1117/12.2530722

KEYWORDS: Coronagraphy, Exoplanets, Astrophysics, Planets, Stars, Imaging systems, Planetary systems, Cameras, Wavefront sensors, Observatories

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Proceedings Article | 9 September 2019 Presentation + Paper

Optimization of Lyot coronagraph focal plane masks for improved low-order wavefront sensing

Erkin Sidick, A.J. Eldorado Riggs

Proceedings Volume 11117, 111170G (2019) https://doi.org/10.1117/12.2529876

KEYWORDS: Coronagraphy, Wavefront sensors, Wavefronts, Phase shifts, Exoplanets, Space telescopes

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Proceedings Article | 9 September 2019 Presentation + Paper

A multi-object spectrograph using single-mode fibers with a coronagraph: progress towards laboratory results on the high-contrast testbed for segmented telescopes

Carl Coker, Jorge Llop Sayson, Stuart Shaklan, A. J. Riggs, Dimitri Mawet, Garreth Ruane, Nemanja Jovanovic, Dan Echeverri

Proceedings Volume 11117, 111171A (2019) https://doi.org/10.1117/12.2528569

KEYWORDS: Single mode fibers, Astronomical imaging, Coronagraphy, Spectrographs, Telescopes, Wavefronts, Deformable mirrors, Switches

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SPIE Journal Paper | 20 May 2019

ExoEarth yield landscape for future direct imaging space telescopes

Christopher Stark, Rus Belikov, Matthew Bolcar, Eric Cady, Brendan Crill, Steve Ertel, Tyler Groff, Sergi Hildebrandt, John Krist, P. Douglas Lisman, Johan Mazoyer, Bertrand Mennesson, Bijan Nemati, Laurent Pueyo, Bernard Rauscher, A. J. Riggs, Garreth Ruane, Stuart Shaklan, Dan Sirbu, Rémi Soummer, Kathryn St. Laurent, Neil Zimmerman

JATIS, Vol. 5, Issue 02, 024009, (May 2019) https://doi.org/10.1117/12.10.1117/1.JATIS.5.2.024009

KEYWORDS: Coronagraphy, Stars, Telescopes, Planets, Space telescopes, Optical instrument design, Point spread functions, Mirrors, Exoplanets, Sensors

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Proceedings Article | 22 August 2018 Presentation + Paper

Hybrid lyot coronagraph for WFIRST: high contrast testbed demonstration in flight-like low flux environment

Byoung-Joon Seo, Fang Shi, Bala Balasubramanian, Eric Cady, Brian Gordon, Brian Kern, Raymond Lam, David Marx, Dwight Moody, Richard Muller, Keith Patterson, Ilya Poberezhskiy, Camilo Mejia Prada, A.J. Eldorado Riggs, John Trauger, Daniel Wilson

Proceedings Volume 10698, 106982P (2018) https://doi.org/10.1117/12.2314358

KEYWORDS: Coronagraphy, Telescopes, Wavefronts, Space telescopes, Low light level imaging

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Proceedings Article | 21 August 2018 Presentation + Paper

High-contrast imager for complex aperture telescopes (HiCAT): 5. first results with segmented-aperture coronagraph and wavefront control

Rémi Soummer, Gregory Brady, Keira Brooks, Thomas Comeau, Élodie Choquet, Tom Dillon, Sylvain Egron, Rob Gontrum, John Hagopian, Iva Laginja, Lucie Leboulleux, Marshall Perrin, Peter Petrone, Laurent Pueyo, Johan Mazoyer, Mamadou N'Diaye, A. J. Eldorado Riggs, Ron Shiri, Anand Sivaramakrishnan, Kathryn St. Laurent, Ana-Maria Valenzuela, Neil Zimmerman

Proceedings Volume 10698, 106981O (2018) https://doi.org/10.1117/12.2314110

KEYWORDS: Coronagraphy, Space telescopes, Wavefronts, Telescopes, Metrology, Phase retrieval, Carbon nanotubes

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Segmented telescopes are a possible approach to enable large-aperture space telescopes for the direct imaging and spectroscopy of habitable worlds. However, the increased complexity of their aperture geometry, due to the central obstruction, support structures and segment gaps, makes high-contrast imaging very challenging. The High-contrast imager for Complex Aperture Telescopes (HiCAT) testbed was designed to study and develop solutions for such telescope pupils using wavefront control and coronagraphic starlight suppression. The testbed design has the flexibility to enable studies with increasing complexity for telescope aperture geometries starting with off-axis telescopes, then on-axis telescopes with central obstruction and support structures - e.g. the Wide Field Infrared Survey Telescope (WFIRST) - up to on-axis segmented telescopes, including various concepts for a Large UV, Optical, IR telescope (LUVOIR). In the past year, HiCAT has made significant hardware and software updates in order to accelerate the development of the project. In addition to completely overhauling the software that runs the testbed, we have completed several hardware upgrades, including the second and third deformable mirror, and the first custom Apodized Pupil Lyot Coronagraph (APLC) optimized for the HiCAT aperture, which is similar to one of the possible geometries considered for LUVOIR. The testbed also includes several external metrology features for rapid replacement of parts, and in particular the ability to test multiple apodizers readily, an active tip-tilt control system to compensate for local vibration and air turbulence in the enclosure. On the software and operations side, the software infrastructure enables 24/7 automated experiments that include routine calibration tasks and high-contrast experiments. In this communication we present an overview and status update of the project, both on the hardware and software side, and describe the results obtained with APLC wavefront control.

Proceedings Article | 21 August 2018 Paper

Fast linearized coronagraph optimizer (FALCO) IV: coronagraph design survey for obstructed and segmented apertures

G. Ruane, A. Riggs, C. Coker, S. Shaklan, E. Sidick, D. Mawet, J. Jewell, K. Balasubramanian, C. Stark

Proceedings Volume 10698, 106984U (2018) https://doi.org/10.1117/12.2312973

KEYWORDS: Coronagraphy, Telescopes, Apodization, Stars, Diffraction, Mirrors, Optical instrument design, Image segmentation, Point spread functions, Solids

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Proceedings Article | 21 August 2018 Paper

Review of high-contrast imaging systems for current and future ground- and space-based telescopes I: coronagraph design methods and optical performance metrics

G. Ruane, A. Riggs, J. Mazoyer, E. Por, M. N’Diaye, E. Huby, P. Baudoz, R. Galicher, E. Douglas, J. Knight, B. Carlomagno, K. Fogarty, L. Pueyo, N. Zimmerman, O. Absil, M. Beaulieu, E. Cady, A. Carlotti, D. Doelman, O. Guyon, S. Haffert, J. Jewell, N. Jovanovic, C. Keller, M. Kenworthy, J. Kuhn, K. Miller, D. Sirbu, F. Snik, J. Kent Wallace, M. Wilby, M. Ygouf

Proceedings Volume 10698, 106982S (2018) https://doi.org/10.1117/12.2312948

KEYWORDS: Coronagraphy, Space telescopes, Signal to noise ratio, Planets, Point spread functions, Stars, Wavefronts, Telescopes, Optical instrument design, Adaptive optics

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Proceedings Article | 9 August 2018 Paper

Fast linearized coronagraph optimizer (FALCO) I: a software toolbox for rapid coronagraphic design and wavefront correction

A J Eldorado Riggs, Garreth Ruane, Erkin Sidick, Carl Coker, Brian Kern, Stuart Shaklan

Proceedings Volume 10698, 106982V (2018) https://doi.org/10.1117/12.2313812

KEYWORDS: Coronagraphy, Wavefronts, Wave propagation, Instrument modeling, MATLAB, Telescopes, Fourier transforms, Deformable mirrors, Wavefront compensation

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Proceedings Article | 9 August 2018 Presentation + Paper

Numerically optimized coronagraph designs for the Habitable Exoplanet Imaging Mission (HabEx) concept

A J Eldorado Riggs, Garreth Ruane, Kevin Fogarty, Laurent Pueyo, Kunjithapatham Balasubramanian

Proceedings Volume 10698, 106980V (2018) https://doi.org/10.1117/12.2313843

KEYWORDS: Coronagraphy, Actuators, Exoplanets, Optimization (mathematics), Point spread functions, Nickel, Deformable mirrors

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Proceedings Article | 7 August 2018 Paper

Fast linearized coronagraph optimizer (FALCO) III: optimization of key coronagraph design parameters

Carl Coker, Garreth Ruane, A J Eldorado Riggs, Erkin Sidick, Byoung-Joon Seo, Brian Kern, David Marx, Stuart Shaklan

Proceedings Volume 10698, 1069851 (2018) https://doi.org/10.1117/12.2313788

KEYWORDS: Coronagraphy, Stars, Telescopes, Space telescopes, Actuators, Planets, Exoplanets, Diffraction, Optimization (mathematics), Deformable mirrors

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Proceedings Article | 1 August 2018 Paper

WFIRST CGI integral field spectrograph performance and post-processing in the OS6 observing scenario

Maxime Rizzo, Neil Zimmerman, Tyler Groff, John Krist, A.J. Eldorado Riggs, Qian Gong, Avi Mandell, Prabal Saxena, Michael McElwain, Aki Roberge

Proceedings Volume 10698, 106986U (2018) https://doi.org/10.1117/12.2312400

KEYWORDS: Sensors, Signal to noise ratio, Coronagraphy, Planets, Stars, Spectrographs, Calibration, Data modeling, Point spread functions

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Proceedings Article | 16 July 2018 Presentation + Paper

Shaped pupil coronagraph: disk science mask experimental verification and testing

David Marx, Eric Cady, A. J. Eldorado Riggs, Camilo Prada, Brian Kern, Byoung-Joon Seo, Fang Shi

Proceedings Volume 10698, 106981E (2018) https://doi.org/10.1117/12.2312602

KEYWORDS: Coronagraphy, Spatial frequencies, Speckle, Performance modeling, Wavefronts, Fourier transforms, Mirrors, Deformable mirrors

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Proceedings Article | 16 July 2018 Presentation + Paper

WFIRST coronagraph flight performance modeling

John Krist, Robert Effinger, Brian Kern, Milan Mandic, James McGuire, Dwight Moody, Patrick Morrissey, Ilya Poberezhskiy, A. J. Riggs, Navtej Saini, Erkin Sidick, Hong Tang, John Trauger

Proceedings Volume 10698, 106982K (2018) https://doi.org/10.1117/12.2310043

KEYWORDS: Coronagraphy, Thermal modeling

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Proceedings Article | 10 July 2018 Presentation + Paper

Review of high-contrast imaging systems for current and future ground-based and space-based telescopes III: technology opportunities and pathways

Frans Snik, Olivier Absil, Pierre Baudoz, Mathilde Beaulieu, Eduardo Bendek, Eric Cady, Brunella Carlomagno, Alexis Carlotti, Nick Cvetojevic, David Doelman, Kevin Fogarty, Raphaël Galicher, Olivier Guyon, Sebastiaan Haffert, Elsa Huby, Jeffrey Jewell, Nemanja Jovanovic, Christoph Keller, Matthew Kenworthy, Justin Knight, Jonas Kuhn, Johan Mazoyer, Kelsey Miller, Mamadou N'Diaye, Barnaby Norris, Emiel Por, Laurent Pueyo, A. J. Eldorado Riggs, Garreth Ruane, Dan Sirbu, J. Kent Wallace, Michael Wilby, Marie Ygouf

Proceedings Volume 10706, 107062L (2018) https://doi.org/10.1117/12.2313957

KEYWORDS: Coronagraphy, Space telescopes, Imaging systems, Exoplanets, Telescopes, Point spread functions, Liquid crystals, Adaptive optics, Wavefront sensors

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Proceedings Article | 10 July 2018 Presentation

Enabling super-nyquist wavefront control on WFIRST (Conference Presentation)

Eduardo Bendek, Dan Sirbu, Ruslan Belikov, Stuart Shaklan, A J Eldorado Riggs

Proceedings Volume 10698, 106982N (2018) https://doi.org/10.1117/12.2313478

KEYWORDS: Stars, Wavefronts, Imaging systems, Deformable mirrors, Hubble Space Telescope, Astronomical imaging, Detection and tracking algorithms, Actuators, Point spread functions, Coronagraphy

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Proceedings Article | 10 July 2018 Presentation

Laboratory testing of coronagraphs for future space telescopes on the Caltech high contrast spectroscopy testbed for segmented telescopes (HCST) (Conference Presentation)

Garreth Ruane, Dimitri Mawet, Jacques-Robert Delorme, Nemanja Jovanovic, Daniel Echeverri, Jorge Llop Sayson, Manxuan (Rebecca) Zhang, A. J. Eldorado Riggs, Stuart Shaklan, Eugene Serabyn, James Wallace

Proceedings Volume 10698, 106981F (2018) https://doi.org/10.1117/12.2312851

KEYWORDS: Space telescopes, Coronagraphy, Telescopes, Spectroscopy, Image segmentation, Stars, Spectroscopes, Mirrors, Exoplanets, Mirror structures

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Proceedings Article | 10 July 2018 Presentation + Paper

Review of high-contrast imaging systems for current and future ground-based and space-based telescopes: Part II. Common path wavefront sensing/control and coherent differential imaging

Nemanja Jovanovic, Olivier Absil , Pierre Baudoz, Mathilde Beaulieu, Michael Bottom, Eric Cady, Brunella Carlomagno, Alexis Carlotti, David Doelman, Kevin Fogarty, Raphaël Galicher, Olivier Guyon, Sebastiaan Haffert, Elsa Huby, Jeffrey Jewell, Christoph Keller, Matthew Kenworthy, Justin Knight, Jonas Kühn, Kelsey Miller, Johan Mazoyer, Mamadou N'Diaye, Emiel Por, Laurent Pueyo, A. Riggs, Garreth Ruane, Dan Sirbu, Frans Snik, J. Wallace, Michael Wilby, Marie Ygouf

Proceedings Volume 10703, 107031U (2018) https://doi.org/10.1117/12.2314260

KEYWORDS: Exoplanets, Coronagraphy, Wavefronts, Speckle, Wavefront sensors, Point spread functions, Imaging systems, Cameras, Modulation, Coherence imaging, Phase retrieval

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Proceedings Article | 9 July 2018 Presentation

Around the world: status and prospects with the infrared vortex coronagraph (Conference Presentation)

Olivier Absil, Mikael Karlsson, Dimitri Mawet, Brunella Carlomagno, Valentin Christiaens, Denis Defrère, Christian Delacroix, Julien Girard, Carlos Gomez Gonzalez, Serge Habraken, Philip Hinz, Elsa Huby, Aissa Jolivet, Markus Kasper, Hans-Ulrich Kaufl, Matthew Kenworthy, Keith Matthews, Julien Milli, Gilles Orban de Xivry, Eric Pantin, Pierre Piron, Maddalena Reggiani, A.J. Eldorado Riggs, Eugene Serabyn, Jean Surdej, Ernesto Vargas Catalan

Proceedings Volume 10702, 107020T (2018) https://doi.org/10.1117/12.2312783

KEYWORDS: Coronagraphy, Infrared radiation, Mid-IR, Infrared cameras, Observatories, Keck Observatory, Data processing, Planets, Cameras, K band

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Proceedings Article | 6 July 2018 Paper

Fast linearized coronagraph optimizer (FALCO) II: optical model validation and time savings over other methods

Erkin Sidick, A. J. Eldorado Riggs, Garreth Ruane, John Krist, Dwight Moody, Carl Coker

Proceedings Volume 10698, 106984S (2018) https://doi.org/10.1117/12.2312950

KEYWORDS: Coronagraphy, Actuators, Telescopes, Infrared telescopes, Wavefronts, Control systems, Wavefront sensors, Deformable mirrors, Space telescopes, Device simulation

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Proceedings Article | 6 July 2018 Paper

Multi-star wavefront control for the wide-field infrared survey telescope

Dan Sirbu, Ruslan Belikov, Eduardo Bendek, Chris Henze, A.J. Eldorado Riggs, Stuart Shaklan

Proceedings Volume 10698, 106982F (2018) https://doi.org/10.1117/12.2314145

KEYWORDS: Stars, Imaging systems, Coronagraphy, Wavefronts, Diffraction, Point spread functions, Infrared telescopes, Telescopes, Control systems

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Proceedings Article | 12 September 2017 Presentation + Paper

Fabrication of coronagraph masks and laboratory scale star-shade masks: characteristics, defects, and performance

Kunjithapatham Balasubramanian, A. J. Eldorado Riggs, Eric Cady, Victor White, Karl Yee, Daniel Wilson, Pierre Echternach, Richard Muller, Camilo Mejia Prada, Byoung-Joon Seo, Fang Shi, Daniel Ryan, Santos Fregoso, Jacob Metzman, Robert Casey Wilson

Proceedings Volume 10400, 104000C (2017) https://doi.org/10.1117/12.2274059

KEYWORDS: Photomasks, Exoplanets, Electron beam lithography, Silicon, Stars, Reflectivity, Wavefronts, Performance modeling, Polarimetry

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Proceedings Article | 1 September 2017 Presentation + Paper

Improved high-contrast wavefront controllers for exoplanet coronagraphic imaging systems

He Sun, N. Jeremy Kasdin, Robert Vanderbei, A. J. Eldorado Riggs, Tyler Groff

Proceedings Volume 10400, 104000R (2017) https://doi.org/10.1117/12.2274720

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Proceedings Article | 1 September 2017 Paper

Shaped pupil coronagraphy for WFIRST: high-contrast broadband testbed demonstration

Eric Cady, Kunjithapatham Balasubramanian, Jessica Gersh-Range, Jeremy Kasdin, Brian Kern, Raymond Lam, Camilo Mejia Prada, Dwight Moody, Keith Patterson, Ilya Poberezhskiy, A. J. Eldorado Riggs, Byoung-Joon Seo, Fang Shi, Hong Tang, John Trauger, Hanying Zhou, Neil Zimmerman

Proceedings Volume 10400, 104000E (2017) https://doi.org/10.1117/12.2272834

KEYWORDS: Wavefronts, Coronagraphy, Exoplanets, Wavefront sensors, Performance modeling, Systems modeling, Control systems

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Proceedings Article | 1 September 2017 Presentation + Paper

WFIRST coronagraph optical modeling

John Krist, A. J. Riggs, James McGuire, Hong Tang, Nikta Amiri, Gary Gutt, Luis Marchen, David Marx, Bijan Nemati, Navtej Saini, Erkin Sidick, Hanying Zhou

Proceedings Volume 10400, 1040004 (2017) https://doi.org/10.1117/12.2274792

KEYWORDS: Performance modeling, Systems modeling, Exoplanets, Spectrographs, Mirrors, Telescopes, Wavefront sensors, Polarization, Tolerancing, MATLAB

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Proceedings Article | 1 September 2017 Presentation + Paper

Prospects for exoplanet imaging in multi-star systems with starshades

Dan Sirbu, Ruslan Belikov, Eduardo Bendek, Elias Holte, A. Riggs, Stuart Shaklan

Proceedings Volume 10400, 104001D (2017) https://doi.org/10.1117/12.2274267

KEYWORDS: Imaging systems, Stars, Exoplanets, Wavefronts, Light scattering, Space operations, Diffraction, Control systems

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Proceedings Article | 1 September 2017 Presentation + Paper

Simulating the WFIRST coronagraph integral field spectrograph

Maxime Rizzo, Tyler Groff, Neil Zimmermann, Qian Gong, Avi Mandell, Prabal Saxena, Michael McElwain, Aki Roberge, John Krist, A. J. Eldorado Riggs, Eric Cady, Camilo Mejia Prada, Timothy Brandt, Ewan Douglas, Kerri Cahoy

Proceedings Volume 10400, 104000B (2017) https://doi.org/10.1117/12.2273066

KEYWORDS: Iterated function systems, Spectrographs, Device simulation, Exoplanets, Atmospheric sciences, Planets, Stars, Cameras, Speckle, Wavefronts

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Proceedings Article | 1 September 2017 Paper

Shaped pupil coronagraph design improvements for the WFIRST coronagraph instrument

A. J. Eldorado Riggs, Neil Zimmerman, Bijan Nemati, John Krist

Proceedings Volume 10400, 104000O (2017) https://doi.org/10.1117/12.2274437

KEYWORDS: Exoplanets, Planets, Diffraction, Monochromatic aberrations, Tolerancing, Interferometry

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Proceedings Article | 8 August 2016 Paper

Modified deformable mirror stroke minimization control for direct imaging of exoplanets

He Sun, A. J. Eldorado Riggs, N. Jeremy Kasdin, Robert Vanderbei, Tyler Groff

Proceedings Volume 9913, 991337 (2016) https://doi.org/10.1117/12.2232030

KEYWORDS: Exoplanets, Wavefronts, Detection and tracking algorithms, Deformable mirrors, Deformable mirrors, Coronagraphy, Computer programming, Electroluminescent displays, Device simulation, Actuators, Neodymium

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Proceedings Article | 29 July 2016 Paper

Low-signal, coronagraphic wavefront estimation with Kalman filtering in the high contrast imaging testbed

A J Eldorado Riggs, Eric Cady, Camilo Prada, Brian Kern, Hanying Zhou, N. Jeremy Kasdin, Tyler Groff

Proceedings Volume 9904, 99043F (2016) https://doi.org/10.1117/12.2233909

KEYWORDS: Wavefronts, Infrared telescopes, Space telescopes, Telescopes, Coronagraphy, Point spread functions, Exoplanets, Image analysis, Planets, Signal to noise ratio

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Proceedings Article | 29 July 2016 Paper

High-contrast imager for Complex Aperture Telescopes (HiCAT). 4. Status and wavefront control development

Lucie Leboulleux, Mamadou N'Diaye, A. J. Riggs, Sylvain Egron, Johan Mazoyer, Laurent Pueyo, Elodie Choquet, Marshall Perrin, Jeremy Kasdin, Jean-François Sauvage, Thierry Fusco, Rémi Soummer

Proceedings Volume 9904, 99043C (2016) https://doi.org/10.1117/12.2233640

KEYWORDS: Space telescopes, Telescopes, Wavefronts, Coronagraphy, Speckle, Point spread functions, Mirrors, Cameras, Infrared telescopes, Ultraviolet telescopes

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Segmented telescopes are a possible approach to enable large-aperture space telescopes for the direct imaging and spectroscopy of habitable worlds. However, the increased complexity of their aperture geometry, due to their central obstruction, support structures and segment gaps, makes high-contrast imaging very challenging. The High-contrast imager for Complex Aperture Telescopes (HiCAT) was designed to study and develop solutions for such telescope pupils using wavefront control and starlight suppression. The testbed design has the flexibility to enable studies with increasing complexity for telescope aperture geometries starting with off-axis telescopes, then on-axis telescopes with central obstruction and support structures (e.g. the Wide Field Infrared Survey Telescope [WFIRST]), up to on-axis segmented telescopes e.g. including various concepts for a Large UV, Optical, IR telescope (LUVOIR), such as the High Definition Space Telescope (HDST). We completed optical alignment in the summer of 2014 and a first deformable mirror was successfully integrated in the testbed, with a total wavefront error of 13nm RMS over a 18mm diameter circular pupil in open loop. HiCAT will also be provided with a segmented mirror conjugated with a shaped pupil representing the HDST configuration, to directly study wavefront control in the presence of segment gaps, central obstruction and spider. We recently applied a focal plane wavefront control method combined with a classical Lyot coronagraph on HiCAT, and we found limitations on contrast performance due to vibration effect. In this communication, we analyze this instability and study its impact on the performance of wavefront control algorithms. We present our Speckle Nulling code to control and correct for wavefront errors both in simulation mode and on testbed mode. This routine is first tested in simulation mode without instability to validate our code. We then add simulated vibrations to study the degradation of contrast performance in the presence of these effects.

Proceedings Article | 29 July 2016 Paper

A new deformable mirror architecture for coronagraphic instrumentation

Tyler Groff, Aaron Lemmer, A. J. Eldorado Riggs

Proceedings Volume 9904, 990421 (2016) https://doi.org/10.1117/12.2233692

KEYWORDS: Space telescopes, Optics manufacturing, Wavefronts, Control systems, Spatial frequencies, Actuators, Deformable mirrors, Coronagraphy, Mirrors, Imaging systems

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Coronagraphs are a promising solution for the next generation of exoplanet imaging instrumentation. While a coronagraph can have very good contrast and inner working angle performance, it is highly sensitive to optical aberrations. This necessitates a wavefront control system to correct aberrations within the telescope. The wavefront requirements and desired search area in a deformable mirror (DM) demand control of the electric field out to relatively high spatial frequencies. Conventional wisdom leads us to high stroke, high actuator density DMs that are capable of reaching these spatial frequencies on a single surface. Here we model a different architecture, where nearly every optical surface, powered or unpowered, is a controllable element. Rather than relying on one or two controllable surfaces for the success of the entire instrument the modeled instrument consists of a series of lower actuator count deformable mirrors to achieve the same result by leveraging the conjugate planes that exist in a coronagraphic instrument. To make such an instrument concept effective the imaging optics themselves must become precision deformable elements, akin to the deformable secondary mirrors at major telescope facilities. Such a DM does not exist commercially; all current DMs, while not necessarily incapable of carrying optical power, are manufactured with flat nominal surfaces. This simplifies control and manufacturing, but complicates their integration into an optical system because there is oftentimes a need to pack several into collimated space. Furthermore, high actuator count DMs cannot approximate low order shapes such as focus or tip-tilt without significant mid-spatial frequency residuals, which is not acceptable for a coronagraphic high-contrast imager. The ability to integrate the wavefront control system into the nominal coronagraphic optical train simplifies packaging, reduces cost and complexity, and increases optical throughput of any coronagraphic instrument. This adds redundancy, increases controllability of the complex aberrations, and mitigates both cost and risk associated with a single high-actuator count device that the entire instrument performance relies on. Here we simulate an optical system with a combination of controllable imaging optics both with and without a high order DM at the pupil. This example instrument is based loosely on the current DM technology being considered for the WFIRST CGI, and is merely an example of a larger trade study to be done to optimally balance actuator requirements, controllability, and wavefront quality. The relative performance of each configuration with regard to contrast, achievable bandwidth, and redundancy is discussed. The overall performance enhancements and risk associated with actuator failures on the assumed DM technology is also evaluated.

Proceedings Article | 29 July 2016 Paper

Sparse aperture mask wavefront sensor testbed results

Hari Subedi, Neil Zimmerman, N. Jeremy Kasdin, A. J. Riggs

Proceedings Volume 9904, 990464 (2016) https://doi.org/10.1117/12.2232015

KEYWORDS: Wavefront sensors, Space telescopes, Relays, Coronagraphy, Monochromatic aberrations, Error analysis, Actuators, Sensors, Telescopes, Wavefronts

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SPIE Journal Paper | 5 February 2016 Open Access

Recursive starlight and bias estimation for high-contrast imaging with an extended Kalman filter

A. J. Eldorado Riggs, N. Jeremy Kasdin, Tyler Groff

JATIS, Vol. 2, Issue 01, 011017, (February 2016) https://doi.org/10.1117/12.10.1117/1.JATIS.2.1.011017

KEYWORDS: Planets, Wavefronts, Point spread functions, Imaging systems, Reactive ion etching, Coronagraphy, Exoplanets, Error analysis, Filtering (signal processing), Sensors

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SPIE Journal Paper | 14 January 2016 Open Access

Shaped pupil Lyot coronagraphs: high-contrast solutions for restricted focal planes

Neil Zimmerman, A. J. Eldorado Riggs, N. Jeremy Kasdin, Alexis Carlotti, Robert Vanderbei

JATIS, Vol. 2, Issue 01, 011012, (January 2016) https://doi.org/10.1117/12.10.1117/1.JATIS.2.1.011012

KEYWORDS: Coronagraphy, Telescopes, Point spread functions, Surface plasmons, Space telescopes, Exoplanets, Planets, Stars, Optical instrument design, Tolerancing

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SPIE Journal Paper | 17 December 2015 Open Access

Methods and limitations of focal plane sensing, estimation, and control in high-contrast imaging

Tyler Groff, A. J. Eldorado Riggs, Brian Kern, N. Jeremy Kasdin

JATIS, Vol. 2, Issue 01, 011009, (December 2015) https://doi.org/10.1117/12.10.1117/1.JATIS.2.1.011009

KEYWORDS: Imaging systems, Control systems, Wavefronts, Error analysis, Coronagraphy, Speckle, Sensing systems, Filtering (signal processing), Actuators, Space telescopes

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SPIE Journal Paper | 7 December 2015

WFIRST-AFTA coronagraph shaped pupil masks: design, fabrication, and characterization

Kunjithapatham Balasubramanian, Victor White, Karl Yee, Pierre Echternach, Richard Muller, Matthew Dickie, Eric Cady, Camilo Prada, Daniel Ryan, Ilya Poberezhskiy, Brian Kern, Hanying Zhou, John Krist, Bijan Nemati, A. J. Eldorado Riggs, Neil Zimmerman, N. Jeremy Kasdin

JATIS, Vol. 2, Issue 01, 011005, (December 2015) https://doi.org/10.1117/12.10.1117/1.JATIS.2.1.011005

KEYWORDS: Photomasks, Silicon, Coronagraphy, Reflectivity, Semiconducting wafers, Aluminum, Point spread functions, Wavefronts, Optical instrument design, Etching

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SPIE Journal Paper | 28 October 2015

Demonstration of high contrast with an obscured aperture with the WFIRST-AFTA shaped pupil coronagraph

Eric Cady, Camilo Mejia Prada, Xin An, Kunjithapatham Balasubramanian, Rosemary Diaz, N. Jeremy Kasdin, Brian Kern, Andreas Kuhnert, Bijan Nemati, Ilya Poberezhskiy, A. J. Eldorado Riggs, Robert Zimmer, Neil Zimmerman

JATIS, Vol. 2, Issue 01, 011004, (October 2015) https://doi.org/10.1117/12.10.1117/1.JATIS.2.1.011004

KEYWORDS: Coronagraphy, Photomasks, Planets, Point spread functions, Telescopes, Infrared telescopes, Semiconducting wafers, Reflectivity, Wavefronts, Data modeling

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The coronagraph instrument on the Wide-Field Infrared Survey Telescope-Astrophysics-Focused Telescope Asset (WFIRST-AFTA) mission study has two coronagraphic architectures, shaped pupil and hybrid Lyot, which may be interchanged for use in different observing scenarios. Each architecture relies on newly developed mask components to function in the presence of the AFTA aperture, and so both must be matured to a high technology readiness level in advance of the mission. A series of milestones were set to track the development of the technologies required for the instrument; we report on completion of WFIRST-AFTA coronagraph milestone 2—a narrowband 10−8 contrast test with static aberrations for the shaped pupil—and the plans for the upcoming broadband coronagraph milestone 5.

Proceedings Article | 5 October 2015

Nanofabrication of ultra-low reflectivity black silicon surfaces and devices (Presentation Recording)

Victor White, Karl Yee, Kunjithapatham Balasubramanian, Pierre Echternach, Richard Muller, Matthew Dickie, Eric Cady, Daniel Ryan, Michael Eastwood, Byron van Gorp, A. J. Eldorado Riggs, Niel Zimmerman, N. Jeremy Kasdin

Proceedings Volume 9556, 955609 (2015) https://doi.org/10.1117/12.2189216

KEYWORDS: Reflectivity, Nanofabrication, Silicon, Optical components, Visible radiation, Coronagraphy, Spectrometers, Aerospace engineering, Nanotechnology, Infrared radiation

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Optical devices with features exhibiting ultra low reflectivity on the order of 10-7 specular reflectance in the visible spectrum are required for coronagraph instruments and some spectrometers employed in space research. Nanofabrication technologies have been developed to produce such devices with various shapes and feature dimensions to meet these requirements. Infrared reflection is also suppressed significantly with chosen wafers and processes. Particularly, devices with very high (>0.9) and very low reflectivity (<10-7) on adjacent areas have been fabricated and characterized. Significantly increased surface area due to the long needle like nano structures also provides some unique applications in other technology areas. We present some of the approaches, challenges and achieved results in producing and characterizing such devices currently employed in laboratory testbeds and instruments.

Proceedings Article | 16 September 2015

Laboratory performance of the shaped pupil coronagraphic architecture for the WFIRST/AFTA coronagraph

Eric Cady, Camilo Mejia Prada, Xin An, Kunjithapatham Balasubramanian, Rosemary Diaz, N. Jeremy Kasdin, Brian Kern, Andreas Kuhnert, Bijan Nemati, Keith Patterson, Ilya Poberezhskiy, A. J. Eldorado Riggs, Daniel Ryan, Hanying Zhou, Robert Zimmer, Neil Zimmerman

Proceedings Volume 9605, 96050B (2015) https://doi.org/10.1117/12.2189113

KEYWORDS: Coronagraphy, Photomasks, Telescopes, Point spread functions, Microscopes, Infrared telescopes, Silicon, Binary data, Infrared radiation, Stars

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One of the two primary architectures being tested for the WFIRST-AFTA coronagraph instrument is the shaped pupil coronagraph, which uses a binary aperture in a pupil plane to create localized regions of high contrast in a subsequent focal plane. The aperture shapes are determined by optimization, and can be designed to work in the presence of secondary obscurations and spiders - an important consideration for coronagraphy with WFIRST-AFTA. We present the current performance of the shaped pupil testbed, including the results of AFTA Milestone 2, in which ≈ 6 × 10^-9 contrast was achieved in three independent runs starting from a neutral setting.

Proceedings Article | 16 September 2015

Sparse aperture mask for low order wavefront sensing

Hari Subedi, Neil Zimmerman, N. Jeremy Kasdin, Kathleen Cavanagh, A. J. Riggs

Proceedings Volume 9605, 96051W (2015) https://doi.org/10.1117/12.2187685

KEYWORDS: Wavefront sensors, Coronagraphy, Sensors, Monochromatic aberrations, Error analysis, Wavefronts, Exoplanets, Space telescopes, Signal to noise ratio, Wavefront aberrations

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A high contrast is required for direct imaging of exoplanets. Ideally, the level of contrast required for direct imaging of exoplanets can be achieved by coronagraphic imaging, but in practice, the contrast is degraded by wavefront aberrations. To achieve the required contrast, low-order wavefront aberrations such as tip-tilt, defocus and coma must be determined and corrected. In this paper, we present a technique that integrates a sparse- aperture mask (SAM) with a shaped pupil coronagraph (SPC) to make precise estimates of these low-order aberrations. Starlight rejected by the coronagraph's focal plane stop is collimated to a relay pupil, where the mask forms an interference fringe pattern on a detector. Using numerical simulations, we show that the SAM can estimate rapidly varying tip-tilt errors in space telescopes arising from line-of-sight pointing oscillations as well as other higher-order modes. We also show that a Kalman filter can be used with the SAM to improve the estimation. At Princetons High Contrast Imaging Laboratory, we have recently created a testbed devoted to low-order wavefront sensing experiments. The testbed incorporates custom-fabricated masks (shaped pupil, focal plane, and sparse aperture) with a deformable mirror and a CCD camera to demonstrate the estimation and correction of low-order aberrations. Our first experiments aim to replicate the results of the SAM wavefront sensor (SAM WFS) Fourier propagation models.

Proceedings Article | 16 September 2015

Exoplanet coronagraph shaped pupil masks and laboratory scale star shade masks: design, fabrication and characterization

Kunjithapatham Balasubramanian, Victor White, Karl Yee, Pierre Echternach, Richard Muller, Matthew Dickie, Eric Cady, Camilo Mejia Prada, Daniel Ryan, Ilya Poberezhskiy, Hanying Zhou, Brian Kern, A. J. Riggs, Neil Zimmerman, Dan Sirbu, Stuart Shaklan, Jeremy Kasdin

Proceedings Volume 9605, 96050L (2015) https://doi.org/10.1117/12.2188954

KEYWORDS: Photomasks, Silicon, Reflectivity, Aluminum, Coronagraphy, Semiconducting wafers, Stars, Wavefronts, Point spread functions, Telescopes

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Star light suppression technologies to find and characterize faint exoplanets include internal coronagraph instruments as well as external star shade occulters. Currently, the NASA WFIRST-AFTA mission study includes an internal coronagraph instrument to find and characterize exoplanets. Various types of masks could be employed to suppress the host star light to about 10^-9 level contrast over a broad spectrum to enable the coronagraph mission objectives. Such masks for high contrast internal coronagraphic imaging require various fabrication technologies to meet a wide range of specifications, including precise shapes, micron scale island features, ultra-low reflectivity regions, uniformity, wave front quality, achromaticity, etc. We present the approaches employed at JPL to produce pupil plane and image plane coronagraph masks by combining electron beam, deep reactive ion etching, and black silicon technologies with illustrative examples of each, highlighting milestone accomplishments from the High Contrast Imaging Testbed (HCIT) at JPL and from the High Contrast Imaging Lab (HCIL) at Princeton University. We also present briefly the technologies applied to fabricate laboratory scale star shade masks.

Proceedings Article | 16 September 2015

Shaped pupil Lyot coronagraph designs for WFIRST/AFTA

Neil Zimmerman, A.J. Eldorado Riggs, N. Jeremy Kasdin, Alexis Carlotti, Robert Vanderbei

Proceedings Volume 9605, 96050A (2015) https://doi.org/10.1117/12.2187141

KEYWORDS: Coronagraphy, Point spread functions, Telescopes, Exoplanets, Binary data, Mirrors, Wavefronts, Space telescopes, Tolerancing, Surface plasmons

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The baseline design for the WFIRST-AFTA Coronagraphic Instrument includes several shaped pupil masks. Our newest designs incorporate the shaped pupil into a Lyot-style architecture to access smaller inner working angles at a given tradeoff in throughput and contrast. We describe two mask configurations: a characterization mode for spectroscopy of exoplanet atmospheres, and a wider-field mode for debris disk observations. We use polychromatic contrast constraints to anchor the spatial extent of the dark search region over the instrument filter bandpass. We examine several practical issues that arise during the optimization process, such as the use of symmetry, and the choice of spatial and wavelength resolutions in the propagation model. Finally, we evaluate the tolerances of the new designs to mask translation and clocking errors.

Proceedings Article | 11 September 2015

Wavefront correction with Kalman filtering for the WFIRST-AFTA coronagraph instrument

A. J. Eldorado Riggs, N. Jeremy Kasdin, Tyler Groff

Proceedings Volume 9605, 960507 (2015) https://doi.org/10.1117/12.2188329

KEYWORDS: Coronagraphy, Wavefronts, Exoplanets, Stars, Point spread functions, Telescopes, Space telescopes, Filtering (signal processing), Infrared telescopes, Device simulation

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The only way to characterize most exoplanets spectrally is via direct imaging. For example, the Coronagraph Instrument (CGI) on the proposed Wide-Field Infrared Survey Telescope-Astrophysics Focused Telescope Assets (WFIRST-AFTA) mission plans to image and characterize several cool gas giants around nearby stars. The integration time on these faint exoplanets will be many hours to days. A crucial assumption for mission planning is that the time required to dig a dark hole (a region of high star-to-planet contrast) with deformable mirrors is small compared to science integration time. The science camera must be used as the wavefront sensor to avoid non-common path aberrations, but this approach can be quite time intensive. Several estimation images are required to build an estimate of the starlight electric field before it can be partially corrected, and this process is repeated iteratively until high contrast is reached. Here we present simulated results of batch process and recursive wavefront estimation schemes. In particular, we test a Kalman filter and an iterative extended Kalman filter (IEKF) to reduce the total exposure time and improve the robustness of wavefront correction for the WFIRST-AFTA CGI. An IEKF or other nonlinear filter also allows recursive, real-time estimation of sources incoherent with the star, such as exoplanets and disks, and may therefore reduce detection uncertainty.

SPIE Journal Paper | 12 June 2015

Coronagraph-integrated wavefront sensing with a sparse aperture mask

Hari Subedi, Neil Zimmerman, N. Jeremy Kasdin, Kathleen Cavanagh, A. J. Eldorado Riggs

JATIS, Vol. 1, Issue 03, 039001, (June 2015) https://doi.org/10.1117/12.10.1117/1.JATIS.1.3.039001

KEYWORDS: Coronagraphy, Wavefronts, Sensors, Wavefront sensors, Error analysis, Point spread functions, Monochromatic aberrations, Exoplanets, Charge-coupled devices, Wave propagation

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Stellar coronagraph performance is highly sensitive to optical aberrations. In order to effectively suppress starlight for exoplanet imaging applications, low-order wavefront aberrations entering a coronagraph, such as tip-tilt, defocus, and coma, must be determined and compensated. Previous authors have established the utility of pupil-plane masks (both nonredundant/sparse-aperture and generally asymmetric aperture masks) for wavefront sensing (WFS). Here, we show how a sparse aperture mask (SAM) can be integrated with a coronagraph to measure low-order differential phase aberrations. Starlight rejected by the coronagraph’s focal plane stop is collimated to a relay pupil, where the mask forms an interference fringe pattern on a subsequent detector. Our numerical Fourier propagation models show that the information encoded in the fringe intensity distortions is sufficient to accurately discriminate and estimate Zernike phase modes extending from tip-tilt up to radial degree n=5, with amplitude up to λ/20 RMS. The SAM sensor can be integrated with both Lyot and shaped pupil coronagraphs at no detriment to the science beam quality. We characterize the reconstruction accuracy and the performance under low flux/short exposure time conditions, and place it in context of other coronagraph WFS schemes.

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Proceedings Article | 28 August 2014

Optimal wavefront estimation of incoherent sources

A. J. Eldorado Riggs, N. Jeremy Kasdin, Tyler Groff

Proceedings Volume 9143, 914324 (2014) https://doi.org/10.1117/12.2056288

KEYWORDS: Wavefronts, Filtering (signal processing), Coronagraphy, Point spread functions, Exoplanets, Stars, Space telescopes, Sensors, Cameras, Matrices

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Direct imaging is in general necessary to characterize exoplanets and disks. A coronagraph is an instrument used to create a dim (high-contrast) region in a star’s PSF where faint companions can be detected. All coronagraphic high-contrast imaging systems use one or more deformable mirrors (DMs) to correct quasi-static aberrations and recover contrast in the focal plane. Simulations show that existing wavefront control algorithms can correct for diffracted starlight in just a few iterations, but in practice tens or hundreds of control iterations are needed to achieve high contrast. The discrepancy largely arises from the fact that simulations have perfect knowledge of the wavefront and DM actuation. Thus, wavefront correction algorithms are currently limited by the quality and speed of wavefront estimates. Exposures in space will take orders of magnitude more time than any calculations, so a nonlinear estimation method that needs fewer images but more computational time would be advantageous. In addition, current wavefront correction routines seek only to reduce diffracted starlight. Here we present nonlinear estimation algorithms that include optimal estimation of sources incoherent with a star such as exoplanets and debris disks.

Proceedings Article | 28 August 2014

Shaped pupil design for future space telescopes

A. J. Eldorado Riggs, Neil Zimmerman, Alexis Carlotti, N. Jeremy Kasdin, Robert Vanderbei

Proceedings Volume 9143, 914325 (2014) https://doi.org/10.1117/12.2056371

KEYWORDS: Surface plasmons, Coronagraphy, Point spread functions, Exoplanets, Space telescopes, Manufacturing, Optical instrument design, Telescopes, Reflectivity, Mirrors

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Several years ago at Princeton we invented a technique to optimize shaped pupil (SP) coronagraphs for any telescope aperture. In the last year, our colleagues at the Jet Propulsion Laboratory (JPL) invented a method to produce these non-freestanding mask designs on a substrate. These two advances allowed us to design SPs for two possible space telescopes for the direct imaging of exoplanets and disks, WFIRST-AFTA and Exo-C. In December 2013, the SP was selected along with the hybrid Lyot coronagraph for placement in the AFTA coronagraph instrument. Here we describe our designs and analysis of the SPs being manufactured and tested in the High Contrast Imaging Testbed at JPL.We also explore hybrid SP coronagraph designs for AFTA that would improve performance with minimal or no changes to the optical layout. These possibilities include utilizing a Lyot stop after the focal plane mask or applying large, static deformations to the deformable mirrors (nominally for wavefront correction) already in the system.

Proceedings Article | 2 August 2014

Technology development towards WFIRST-AFTA coronagraph

Ilya Poberezhskiy, Feng Zhao, Xin An, Kunjithapatham Balasubramanian, Ruslan Belikov, Eric Cady, Richard Demers, Rosemary Diaz, Qian Gong, Brian Gordon, Renaud Goullioud, Frank Greer, Olivier Guyon, Michael Hoenk, N. Jeremy Kasdin, Brian Kern, John Krist, Andreas Kuhnert, Michael McElwain, Bertrand Mennesson, Dwight Moody, Richard Muller, Bijan Nemati, Keith Patterson, A. J. Riggs, Daniel Ryan, Byoung-Joon Seo, Stuart Shaklan, Erkin Sidick, Fang Shi, Nicholas Siegler, Rémi Soummer, Hong Tang, John Trauger, J. Kent Wallace, Xu Wang, Victor White, Daniel Wilson, Karl Yee, Hanying Zhou, Neil Zimmerman

Proceedings Volume 9143, 91430P (2014) https://doi.org/10.1117/12.2060320

KEYWORDS: Coronagraphy, Sensors, Wavefronts, Wavefront sensors, Iterated function systems, Photomasks, Space telescopes, Exoplanets, Deformable mirrors, Planets

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NASA’s WFIRST-AFTA mission concept includes the first high-contrast stellar coronagraph in space. This coronagraph will be capable of directly imaging and spectrally characterizing giant exoplanets similar to Neptune and Jupiter, and possibly even super-Earths, around nearby stars. In this paper we present the plan for maturing coronagraph technology to TRL5 in 2014-2016, and the results achieved in the first 6 months of the technology development work. The specific areas that are discussed include coronagraph testbed demonstrations in static and simulated dynamic environment, design and fabrication of occulting masks and apodizers used for starlight suppression, low-order wavefront sensing and control subsystem, deformable mirrors, ultra-low-noise spectrograph detector, and data post-processing.

Proceedings Article | 26 September 2013

Demonstration of symmetric dark holes using two deformable mirrors at the high-contrast imaging testbed

A. J. Eldorado Riggs, Tyler Groff, Alexis Carlotti, N. Jeremy Kasdin, Eric Cady, Brian Kern, Andreas Kuhnert

Proceedings Volume 8864, 88640T (2013) https://doi.org/10.1117/12.2024278

KEYWORDS: Wavefronts, Actuators, Filtering (signal processing), Point spread functions, Surface plasmons, Coronagraphy, Photomasks, Deformable mirrors, Exoplanets, Manufacturing

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The High Contrast Imaging Laboratory (HCIL) at Princeton has developed several important algorithms and technologies for space-based coronagraphy missions to detect earth-like exoplanets. Before June 2013 the HCIL was the only facility with two deformable mirrors (DMs) in series for focal plane wavefront control, which allows for quasi-static speckle correction on both sides of the image plane. From June through August 2013, the High- Contrast Imaging Testbed (HCIT) at JPL had a second DM installed. In this paper we report on the results of our Technology Development for Exoplanet Missions project to achieve high contrast in two symmetric dark holes using a shaped pupil (SP) coronagraph at the HCIT. Our previous experiment with a similar SP at the HCIT in 2007 yielded single-sided dark holes. That experiment utilized an iterative, batch-process wavefront estimator and Electric Field Conjugation for wavefront control. Our current tests use the faster Kalman filter estimator and the stroke minimization control algorithm. We use the same ripple-style SPs as in the previous HCIT experiment because that mask manufacturing technique proved successful. Our tests of symmetric dark holes in monochromatic light at the HCIT demonstrate Princeton’s steady improvements in wavefront control and estimation techniques for a space-based coronagraphy mission.

Proceedings Article | 26 September 2013

Hybrid coronagraphic design: optimization of complex apodizers

Alexis Carlotti, N. Jeremy Kasdin, Robert Vanderbei, A. J. Eldorado Riggs

Proceedings Volume 8864, 88641Q (2013) https://doi.org/10.1117/12.2024523

KEYWORDS: Point spread functions, Coronagraphy, Deformable mirrors, Apodization, Actuators, Stars, Wavefronts, Phase shifts, Binary data, Mirrors

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To spectrally characterize Earth-like planets around nearby stars with a coronagraph, an extreme adaptive optics (ExAO) system is mandatory. The correction of the amplitude and phase aberrations in the wavefront on both sides of the image plane and in sufficiently large bandwidths can be done with two deformable mirrors (DM) in a pupil mapping configuration. While this system is primarily intended to correct for aberrations, it can potentially be used to improve the contrast beyond the nominal value set by the coronagraph; the two DMs can be seen as a complex apodizer. We present solutions to two types of numerical optimization problems. Our first approach consists in maximizing the sum of the real and the imaginary parts of the electric field in the pupil plane, while constraining the intensity of the electric field in chosen regions of the the subsequent image plane to be less than a chosen extremum. The solutions can be translated in term of modulus and phase. The optimal modulus is very close to 1, and the high-contrast is induced by a binary phase shift, which cannot be induced with current deformable mirrors. Our second approach consists in directly optimizing the stroke commands sent to a deformable mirror. Solutions are computed by either solving successive linear optimizations or non-linear optimizations. For a telescope with a 30% central obscuration, a 3λ=D inner working angle and a 10λ=D outer working angle, a 10^-6-10^-7 is reached after a dozen iterations, and the coronagraph has a 60-80% throughput. Shaped pupils are then computed to lower that contrast down to 10^-9-10^-10.

Proceedings Article | 21 September 2012

Broadband focal plane wavefront control of amplitude and phase aberrations

Tyler Groff, N. Jeremy Kasdin, Alexis Carlotti, A. J. Eldorado Riggs

Proceedings Volume 8442, 84420C (2012) https://doi.org/10.1117/12.927156

KEYWORDS: Wavefronts, Coronagraphy, Point spread functions, Error analysis, Actuators, Optical filters, Single mode fibers, Collimation, Photonic crystals, Filtering (signal processing)

Read Abstract +

The Stroke Minimization algorithm developed at the Princeton High Contrast Imaging Laboratory has proven symmetric dark hole generation using minimal stroke on two deformable mirrors (DM) in series. The windowed approach to Stroke Minimization has proven symmetric dark holes over small bandwidths by using three wavelengths to define the bandwidth of correction in the optimization problem. We address the relationship of amplitude and phase aberrations with wavelength, how this changes with multiple DMs, and the implications for simultaneously correcting both to achieve symmetric dark holes. Operating Stroke Minimization in the windowed configuration requires multiple wavelength estimates. To save on exposures, a single estimate is extrapolated to bounding wavelengths using the established relationship in wavelength to produce multiple estimates of the image plane electric field. Here we demonstrate better performance by improving this extrapolation of the estimate to other wavelengths. The accuracy of the functional relationship will ultimately bound the achievable bandwidth, therefore as a metric these results are also compared to estimating each wavelength separately. In addition to these algorithm improvements, we also discuss a laboratory upgrade and how it can better simulate broadband starlight. We also discuss the possibility of leveraging two DMs in series to directly estimate the electric field over a narrow bandwidth and the challenges associated with it.

Proceedings Article | 13 April 1993

Virtual toolbox

Charles Jacobus, Heidi Jacobus, Brian Mitchell, A. Riggs, Mark Taylor

Proceedings Volume 1838, (1993) https://doi.org/10.1117/12.142791

KEYWORDS: Virtual reality, 3D displays, Machine vision, Computer vision technology, Information operations, Visualization, 3D image processing, Head-mounted displays, Glasses, Servomechanisms

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At least three of the five senses must be fully addressed in a successful virtual reality (VR) system. Sight, sound, and touch are the most critical elements for the creation of the illusion of presence. Since humans depend so much on sight to collect information about their environment, this area has been the focus of much of the prior art in virtual reality, however, it is also crucial that we provide facilities for force, torque, and touch reflection, and sound replay and 3-D localization. In this paper we present a sampling of hardware and software in the virtual environment maker's `toolbox' which can support rapidly building up of customized VR systems. We provide demonstrative examples of how some of the tools work and we speculate about VR applications and future technology needs.

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