Title :
Optical design considerations in substrate-air-membrane micromechanical modulators
Author :
Goossen, K.W. ; Walker, James Alfred ; Amey, S.C.
Author_Institution :
AT&T Bell Labs., Holmdel, NJ, USA
Abstract :
Summary form only given. We present a new design for nonsubstrate-contacting WDM micromechanical modulators, the phase-mismatched Fabry-Perot cavity. Micromechanical modulators in which a variable air gap forms the cavity between two mirrors, thus producing a Fabry-Perot optical device, have been explored for some time. Typically, the mirrors are multilayer, thus having reflectivities and producing cavities with high finesse. However, as we show here, Fabry-Perot devices can be designed with just a single-layer membrane suspended over a substrate that, therefore, have the same wide manufacturing tolerances and low finesse (and thus broad spectral bandwidth) as the MARS device. The noncontacting substrate-air-membrane micromechanical modulator improves upon the basic MARS by allowing a larger range of refractive indices to be used for the membrane.
Keywords :
Fabry-Perot resonators; membranes; micromechanical devices; optical design techniques; optical modulation; substrates; wavelength division multiplexing; broad spectral bandwidth; cavity; low finesse; mirrors; nonsubstrate-contacting WDM micromechanical modulators; optical design; phase-mismatched Fabry-Perot cavity; refractive indices; single-layer membrane; substrate-air-membrane micromechanical modulators; variable air gap; wide manufacturing tolerances; Biomembranes; Fabry-Perot; Mars; Micromechanical devices; Mirrors; Nonhomogeneous media; Optical design; Optical devices; Phase modulation; Wavelength division multiplexing;
Conference_Titel :
Lasers and Electro-Optics, 1996. CLEO '96., Summaries of papers presented at the Conference on
Conference_Location :
Anaheim, CA, USA
Print_ISBN :
1-55752-443-2
