Title :
Electrostatically actuated mechanooptical waveguide ON-OFF switch showing high extinction at a low actuation-voltage
Author :
Veldhuis, G.J. ; Nauta, T. ; Gui, C. ; Berenschot, J.W. ; Lambeck, P.V.
Author_Institution :
MESA Res. Inst., Twente Univ., Enschede, Netherlands
Abstract :
This paper reports on an integrated mechanooptical waveguide ON-OFF switch, where an absorbing element is moved into and out of the evanescent field of the guided mode in order to achieve switching. For the electrostatically driven devices, an extinction ratio of 65 dB at an actuation voltage of 2.5 V has been achieved in a 9.5-mm-long device for a wavelength of 632.8 nm. The calculated mechanical fundamental resonance frequency is 1.95 kHz. The device design enables future vacuum sealing that will annihilate the squeeze damping which, in the present device, reduces the response time to 10 s. Full-wafer scale fabrication is enabled by using standard silicon technology, chemical mechanical polishing and aligned wafer bonding. The devices can he used for channel selection purposes in integrated optical sensor arrays
Keywords :
electrostatic actuators; integrated optics; micro-optics; optical switches; optical waveguide components; 1.95 kHz; 2.5 V; 632.8 nm; channel selection; chemical mechanical polishing; electrostatic actuation; evanescent field; extinction ratio; full-wafer scale fabrication; integrated optical nanomechanical effect; mechanooptical waveguide ON-OFF switch; optical sensor array; resonance frequency; silicon technology; squeeze damping; vacuum sealing; wafer bonding; Chemical technology; Damping; Extinction ratio; Optical arrays; Optical waveguides; Resonance; Resonant frequency; Sensor arrays; Switches; Voltage;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.748106
