Prof. Lawrence R. Chen Profile

Prof. Lawrence R. Chen

Professor at McGill Univ

SPIE Involvement:

Author | Editor | Instructor

Publications (26)

Proceedings Article | 28 June 2023 Open Access

Students’ reflections on the impact of paid summer photonics research internships

Rhys Adams, Lawrence Chen

Proceedings Volume 12723, 127230I (2023) https://doi.org/10.1117/12.2666795

KEYWORDS: Internships, Photonics, Education and training, Engineering, Physics, Scientific research

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Proceedings Article | 2 July 2019 Open Access

On the use of reflective writing in an introductory photonics course

Lawrence Chen, Maxime Jacques

Proceedings Volume 11143, 111432H (2019) https://doi.org/10.1117/12.2523502

KEYWORDS: Photonic devices, Engineering education

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Proceedings Article | 7 March 2019 Presentation + Paper

Dual-wavelength, cascaded cavities bismuth-doped fiber laser in 1.7 μm wavelength range

Galina Nemova, Jinghao Qiao, Lawrence Chen, Sergei Firstov, Evgeny Dianov

Proceedings Volume 10897, 1089711 (2019) https://doi.org/10.1117/12.2509945

KEYWORDS: Fiber lasers, Quantum cascade lasers, Fiber Bragg gratings, Reflectivity, Data modeling, Laser resonators, Continuous wave operation, Absorption, Active optics, Fiber optics

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Proceedings Article | 22 February 2018 Presentation + Paper

Towards integrated devices for ultrafast all-optical signal processing in optical networks

Ivan Glesk, Zifei Wang, Lawrence Chen, Md Shakil Ahmed

Proceedings Volume 10536, 1053613 (2018) https://doi.org/10.1117/12.2296939

KEYWORDS: Ultrafast phenomena, All optical signal processing, Optical filters, Waveguides, Signal processing, Integrated optics, Optical networks, Filtering (signal processing), Switching, Time division multiplexing, Code division multiplexing

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Proceedings Article | 21 February 2018 Paper

Subwavelength grating waveguide devices in silicon photonics

Lawrence Chen

Proceedings Volume 10542, 105420L (2018) https://doi.org/10.1117/12.2286745

KEYWORDS: Waveguides, Resonators, Microrings, Nanowires, Silicon photonics, Refractive index, Wave propagation, Picosecond phenomena, Phase shifts, Silicon

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Proceedings Article | 16 August 2017 Open Access

Engaging college physics students with photonics research

Rhys Adams, Lawrence Chen

Proceedings Volume 10452, 104522W (2017) https://doi.org/10.1117/12.2257357

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Proceedings Article | 6 May 2015 Paper

Simulations of waveguide Bragg grating filters based on subwavelength grating waveguide

Ivan Richter, Pavel Kwiecien, Junjia Wang, Jiří Čtyroký, Ivan Glesk, Lawrence Chen

Proceedings Volume 9516, 95160M (2015) https://doi.org/10.1117/12.2178754

KEYWORDS: Waveguides, Fiber Bragg gratings, Silicon, Modulation, Refractive index, Finite-difference time-domain method, Reflectivity, Transmittance, Optical design, Optical filters

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Proceedings Article | 5 December 2014 Paper

Recent advancements towards green optical networks

Alan Davidson, Ivan Glesk, Lawrence Chen, Junjia Wang, Adrianus Buis

Proceedings Volume 9441, 944117 (2014) https://doi.org/10.1117/12.2084956

KEYWORDS: Data centers, Switching, Transistors, Switches, Signal attenuation, Optical fibers, Waveguides, Copper, CMOS technology, Quantum wells

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Proceedings Article | 25 September 2014 Paper

Analysis of optical back propagation under non-ideal optical phase conjugation and amplifier noise

Mohammad Rezagholipour Dizaji, Lawrence Chen, Guanhui Wang

Proceedings Volume 9288, 92880D (2014) https://doi.org/10.1117/12.2075311

KEYWORDS: Optical amplifiers, Optical proximity correction, Phase conjugation, Forward error correction, Amplifiers, Dispersion, Lanthanum, Nonlinear optics, Operating systems, Fiber amplifiers

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Proceedings Article | 11 October 2013 Paper

A reconfigurable microwave photonic filter based on four wave mixing in a silicon nanophotonic waveguide

Rhys Adams, Jia Li, Zehra Sarac, David Berardo, Lawrence Chen

Proceedings Volume 8915, 89150M (2013) https://doi.org/10.1117/12.2035216

KEYWORDS: Waveguides, Dispersion, Silicon, Cladding, Oxides, Microwave photonic filters, Nanophotonics, Four wave mixing, Nonlinear filtering, Optical filters

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Proceedings Article | 11 October 2013 Paper

Tunable optical delay line in SOI implemented with step chirped Bragg gratings and serial grating arrays

Mina Spasojevic, Lawrence Chen

Proceedings Volume 8915, 89150S (2013) https://doi.org/10.1117/12.2037832

KEYWORDS: Picosecond phenomena, Waveguides, Fiber Bragg gratings, Optical design, Wave propagation, Silicon, Refractive index, MATLAB, Modulation, Signal processing

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Proceedings Article | 26 February 2013 Paper

Multi-wavelength S-band Tm:ZBLAN fiber lasers

L. Chen, B. Frison, A. Sarmani, X. Gu, M. Saad

Proceedings Volume 8601, 86011S (2013) https://doi.org/10.1117/12.2004655

KEYWORDS: Fiber lasers, Fiber Bragg gratings, ZBLAN, S band, Upconversion, Thulium, Wavelength division multiplexing, Silica, Fiber amplifiers, Spectrum analysis

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Tm³⁺-doped fluoride (ZBLAN) fibers offer amplification and lasing in a wide variety of wavelength ranges, including 810 nm, 1480 nm, 1900 nm, and 2300 nm.¹ Amplification and lasing around 1480 nm through the ³H₄→³F₄ transition is of interest for extending the capacity of WDM transmission systems, as well as developing sources for pumping erbium-doped fiber and fiber Raman amplifiers. The ³H₄→³F₄ transition, however, poses a challenge due to its self terminating nature. As such, the ³F₄ level can be depleted either by colasing at 1900 nm² or by using upconversion pumping at 1064 nm. High-power 1480 nm Tm³⁺:ZBLAN fiber lasers with upconversion pumping at 1064 nm have been demonstrated.^3-6 Recent research has focused on improving further the power conversion efficiency as well as the development of monolithic fiber lasers, e.g., by incorporating fiber Bragg gratings (FBGs) directly within the Tm³⁺: ZBLAN fiber gain medium. Dual-wavelength and multi-wavelength sources can have many applications in instrumentation (e.g., component testing), LIDAR systems, and fiber optics sensing. There have been several reports of dual-wavelength Tm³⁺-doped fiber lasers. For example, Androz et al. demonstrated operation at 785 nm and 810 nm, corresponding to the ¹G₄→³H₅ and ³H₄→³H₆ transitions, respectively, with a Tm³⁺:ZBLAN fiber gain medium.⁷ Wang et al. obtained dual-wavelength lasing around 2 μm with a tunable wavelength spacing from 1 nm – 40 nm in a Tm³⁺:silica fiber laser.⁸ We realized oscillation at 805 nm and 810 nm through the ³H₄→³H₆ transition in a Tm³⁺:ZBLAN fiber laser; we also reported wavelength switching capability as well as bistable operation in both single cavity and cascaded cavity configurations.⁹ In this paper, we extend our work further and report a dual-wavelength Tm³⁺:ZBLAN fiber laser operating in the S-band. Wavelength spacings of 11 nm and as narrow as 0.6 nm are achieved in a linear cascaded cavity configuration with bidirectional upconversion pumping at 1064 nm.

Proceedings Article | 8 September 2011 Paper

Thermo-optic silica PLC devices for applications in high speed optical signal processing

Sarkis Jacob, Payman Samadi, Christopher Ledderhof, Patrick Dumais, Dritan Celo, Claire Callender, Lawrence Chen, Chantal Blanchetiere

Proceedings Volume 8007, 80070Q (2011) https://doi.org/10.1117/12.903450

KEYWORDS: Switching, Cladding, Switches, Thermal optics, Waveguides, Silica, Polarization, Photonic integrated circuits, Metals, Electrodes

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Proceedings Article | 17 February 2010 Paper

Dual core ytterbium doped fiber ring laser in Fourier domain mode locked operation for swept-source optical coherence tomography

Kyle H. Cheng, Barry Vuong, Lawrence Chen, Adrian Mariampillai, Victor X. Yang, Mark Harduar, Beau Standish, Xijia Gu

Proceedings Volume 7580, 75802S (2010) https://doi.org/10.1117/12.842825

KEYWORDS: Ytterbium, Optical coherence tomography, Fiber lasers, Optical filters, Fiber amplifiers, Mode locking, Optical amplifiers, Laser sources, Electronic filtering, Absorption

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Proceedings Article | 17 February 2010 Paper

Cascaded Raman fiber laser in Fourier domain mode lock operation

Mark Harduar, Barry Vuong, Beau Standish, Lawrence Chen, Kyle H. Cheng, Xijia Gu, Victor X. Yang

Proceedings Volume 7580, 75802R (2010) https://doi.org/10.1117/12.842769

KEYWORDS: Raman spectroscopy, Fiber lasers, Fiber Bragg gratings, Quantum cascade lasers, Optical filters, Mirrors, Optical coherence tomography, Laser sources, Ytterbium, Optical testing

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Proceedings Article | 5 August 2009 Paper

Tunable silica-on-silicon planar lightwave circuits for signal processing applications

Lawrence Chen, Patrick Dumais, Claire Callender, Chris Ledderhof, Irina Kostko, Chantal Blanchetière, Payman Samadi, Sarkis Jacob, Bing Xia

Proceedings Volume 7386, 738622 (2009) https://doi.org/10.1117/12.838456

KEYWORDS: Waveguides, Photonic integrated circuits, Thermal optics, Switching, Polarization, Silica, Phase shifts, Control systems, Binary data, Optical components

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Proceedings Article | 29 August 2008 Paper

All-optical swapping of spectral amplitude code labels for packet-switched networks

Lawrence Chen

Proceedings Volume 7072, 707202 (2008) https://doi.org/10.1117/12.792516

KEYWORDS: Modulation, Chromium, Switching, Semiconductor lasers, Fiber Bragg gratings, Switches, Fiber lasers, Optical networks, Semiconductors, Signal processing

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Proceedings Article | 11 August 2008 Paper

Multiwavelength self-pulsating fibre laser based on cascaded SPM spectral broadening and filtering

Martin Rochette, Kai Sun, Juan Hernández-Cordero, Lawrence Chen

Proceedings Volume 7099, 70990N (2008) https://doi.org/10.1117/12.805303

KEYWORDS: Optical filters, Pulsed laser operation, Surface plasmons, Continuous wave operation, Optical amplifiers, Picosecond phenomena, Scanning probe microscopy, Electronic filtering, Bandpass filters

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Proceedings Article | 26 October 2007 Paper

S+C+L broadband source based on semiconductor optical amplifiers and erbium-doped fiber for optical coherence tomography

R. Maciejko, L. Carrion, A. Nirmalathas, A. Jain, L. Chen, D. Beitel, K. L. Lee

Proceedings Volume 6796, 67960H (2007) https://doi.org/10.1117/12.778087

KEYWORDS: Optical coherence tomography, Sapphire lasers, Semiconductor optical amplifiers, Fiber amplifiers, Image quality, Biomedical optics, Mirrors, S band, Interferometers, Tissue optics

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Proceedings Article | 8 September 2006 Paper

Developing broadband sources for optical coherence tomography

J. Baron, J. Chauve, D. Beitel, L. Chen, K. Singh, R. Maciejko, R. Kashyap, G. Nemova, R. Matei, S. Saqqa, J. Azaña, L. Bojor

Proceedings Volume 6343, 63430I (2006) https://doi.org/10.1117/12.707503

KEYWORDS: Optical coherence tomography, Optical filters, Fiber Bragg gratings, Optical amplifiers, Semiconductors, Temporal coherence, L band, Optical design, Quantum wells, Refractive index

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Proceedings Article | 8 September 2006 Paper

Packet switched networks with photonic code processing

L. Rusch, A. Leon-Garcia, J. Rosas-Fernandez, D. Plant, L. Chen, S. LaRochelle

Proceedings Volume 6343, 63431O (2006) https://doi.org/10.1117/12.707768

KEYWORDS: Clocks, Fiber Bragg gratings, Computer programming, Receivers, Fiber lasers, Packet switching, Passive optical networks, Switching, Modulation, Ultrafast phenomena

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Proceedings Article | 14 October 2005 Paper

Analysis of gain transients in cascades of discrete fiber Raman amplifiers

Lawrence Chen, Johann Gest

Proceedings Volume 5970, 59702I (2005) https://doi.org/10.1117/12.628484

KEYWORDS: Optical amplifiers, Fiber amplifiers, Amplifiers, Raman spectroscopy, Optical networks, Fiber Bragg gratings, Nonlinear optics, Signal attenuation, Wavelength division multiplexing, Optical fibers

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Discrete fiber Raman amplifiers (DFRAs) are a candidate technology for extending the transmission capacity of dynamic optical networks such as agile all-photonic networks. However, as with conventional doped fiber amplifiers, they suffer from power transients following the addition or removal of channels which results in system penalties due to degradation in optical signal-to-noise-ratio or nonlinear effects. Recently, several groups have investigated all-optical gain-clamping, which consists in introducing a lasing feedback signal in the amplifier, as a means for gain control and mitigating the power transients. In this paper, we theoretically analyse the dynamic response of DFRA cascades in the worst possible case of power transients. In particular, we consider a 64-channel system in which all of the channels except one (i.e. the surviving channel) are cut from and subsequently added to the first amplifier of the cascade. While previous studies have focused on the transient response of the surviving channel when all of the amplifiers in the cascade are either unclamped or gain-clamped, we consider here cascades involving combinations of unclamped and gain-clamped DFRAs. We vary the number and the position of the gain-clamped DFRAs in the cascade to determine whether a cascade in which only a few amplifiers are gain-clamped can be effective for controlling the power transients within tolerable limits. To simulate the dynamic response of the DFRAs, we have developed a new technique, based on a temporal average power analysis. In our simulations, we also take into account the location of the surviving channel and the operational regime of the amplifiers. Our results show that the location of the gain-clamped DFRAs in a mixed cascade is not important when the amplifiers are operated in small-signal regime; on the other hand, as the input signal power is increased, it becomes more preferable to place the gain-clamped amplifiers at the beginning of the cascade.

Proceedings Article | 13 October 2005 Paper

Strategies for developing tunable multiwavelength, mode-locked semiconductor fiber ring lasers

Lawrence Chen, Hong Cao

Proceedings Volume 5970, 597025 (2005) https://doi.org/10.1117/12.628486

KEYWORDS: Mode locking, Modulation, Fiber lasers, Picosecond phenomena, Semiconductor lasers, Optical filters, Tunable lasers, Dispersion, Polarization, Reflectivity

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Proceedings Article | 13 October 2005 Paper

Chromatic dispersion measurements of optical fiber based on time-of-flight using a tunable multi-wavelength semiconductor fiber laser

Véronique Pagé, Lawrence Chen

Proceedings Volume 5970, 59701X (2005) https://doi.org/10.1117/12.628485

KEYWORDS: Dispersion, Optical fibers, Fiber lasers, Single mode fibers, Semiconductor lasers, Switches, Optical testing, Semiconductors, Modulation, Wave propagation

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Proceedings Article | 17 February 2003 Paper

2D wavelength-time codes for optical code-division multiple access with differential detection

Jan Bajcsy, Raymond Yim, Lawrence Chen

Proceedings Volume 4833, (2003) https://doi.org/10.1117/12.473981

KEYWORDS: Code division multiplexing, Signal detection, Error control coding

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Proceedings Article | 17 February 2003 Paper

Optical code-division multiple access: challenges and solutions

Lawrence Chen

Proceedings Volume 4833, (2003) https://doi.org/10.1117/12.473977

KEYWORDS: Forward error correction, Receivers, Computer programming, Picosecond phenomena, Wavelength division multiplexing, Code division multiplexing, Transmitters, Stars, Algorithm development, Time division multiplexing

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Showing 5 of 26 publications

Proceedings Volume Editor (1)

SPIE Conference Volume | 29 October 2013

Photonics North 2013

Conference Committee Involvement (2)

Photonics North 2013

3 June 2013 | Ottawa, Canada

Passive Components and Fiber-Based Devices

13 November 2011 | Shanghai, China

Course Instructor

SC483: Optical Amplifiers for Lightwave Communications

Optical amplifiers have revolutionized fiber optic telecommunications networks. This course is designed to introduce the participant to the fundamentals of optical amplifiers and the current state of technology. It will focus on amplifiers at 1.55 microns based on erbium-doped fibers, although Raman amplifiers and semiconductor optical amplifiers will also be discussed. Emphasis will be placed on the basic operating principles of amplifiers, functional parameters, and associated optical components. The course is introductory, but future trends, such as adaptive or intelligent amplifiers, will also be presented.

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