Tunable Fabry-Pérot interferometer integrated in a silicon waveguide of an on-chip optical platform for long infrared wavelengths

Julia Wecker; Karla Hiller; Toni Großmann; Susann Hahn; Steffen Kurth; Christian Helke; Matthias Küchler; Danny Reuter; Jörg Martin; Alexander Weiß; Harald Kuhn

doi:10.1117/12.2650524

13 March 2023 Tunable Fabry-Pérot interferometer integrated in a silicon waveguide of an on-chip optical platform for long infrared wavelengths

Julia Wecker, Karla Hiller, Toni Großmann, Susann Hahn, Steffen Kurth, Christian Helke, Matthias Küchler, Danny Reuter, Jörg Martin, Alexander Weiß, Harald Kuhn

Author Affiliations +

Proceedings Volume 12426, Silicon Photonics XVIII; 124260M (2023) https://doi.org/10.1117/12.2650524
Event: SPIE OPTO, 2023, San Francisco, California, United States

Abstract

As part of a future optical platform on-chip, we present a waveguide integrated tunable Fabry-Pérot Interferometer (FPI) for the long infrared wavelength range. The FPI consists of two parallel Bragg reflectors that are located at the ends of two waveguides facing each other. The waveguides are made of silicon and are suspended in air. The reflectors are realized as an alternating stack of silicon and air layers with high (H) and low (L) refractive index. The filter transmittance is evaluated by analytic calculations and electromagnetic finite difference time domain simulations. Filters with (HL)² layer stack show a full width half maximum of 270 nm and a peak transmittance of more than 25% at a wavelength of 9.4 μm at the first interference order in the simulation. It is evaluated by measurements. A MEMS actuator is used to tune the filter wavelength by changing the distance between both reflectors. A digital electrostatic actuator concept with a linear drive characteristic, designed for a large travel range up to 4 μm with a driving voltage of less than 30 V, is presented and evaluated together with the filter. The MEMS fabrication process for the structures is based on bonding and deep reactive ion etching (DRIE). The DRIE etch process was optimized, hereafter achieving a reduced roughness of less than 3 nm of the waveguide sidewalls. For transmission measurements the silicon waveguides are coupled to a laser source and a detector using optical fibers together with optical couplers on the chip. The filter performance was characterized in the range from 9μm to 9.4 μm.

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Julia Wecker, Karla Hiller, Toni Großmann, Susann Hahn, Steffen Kurth, Christian Helke, Matthias Küchler, Danny Reuter, Jörg Martin, Alexander Weiß, and Harald Kuhn "Tunable Fabry-Pérot interferometer integrated in a silicon waveguide of an on-chip optical platform for long infrared wavelengths", Proc. SPIE 12426, Silicon Photonics XVIII, 124260M (13 March 2023); https://doi.org/10.1117/12.2650524

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