Title :
Variable-Gap Silicon Photonic Waveguide Coupler Switch With a Nanolatch Mechanism
Author :
Abe, Shigeto ; Hane, Kazuhiro
Author_Institution :
Dept. of Nanomech., Tohoku Univ., Sendai, Japan
Abstract :
Design and fabrication of a variable-gap waveguide coupler switch with a nano latch mechanism are reported for on-chip waveguide circuits in Si photonics. The proposed switch consists of a coupler of two freestanding 400-nm-wide 260-nm-thick Si waveguides, three 30-μm-wide 40-μm-long comb-drive actuators, and a nanolatch mechanism. The nanolatch mechanism consists of four hook-shaped latches for maintaining a switch-on state at a coupler gap of around 100 nm. The switching and latching characteristics are investigated. The port isolation under the latch-on condition is found to be 17 dB. Due to the capacitive operation of the actuators and the nanolatch mechanism, power consumption of the switch is minimized.
Keywords :
actuators; elemental semiconductors; integrated optoelectronics; isolation technology; nanophotonics; optical couplers; optical design techniques; optical fabrication; optical switches; optical waveguides; silicon; Si; Si photonics; capacitive operation; comb-drive actuators; freestanding waveguides; hook-shaped latches; latch-on condition; latching characteristics; nanolatch mechanism; on-chip waveguide circuits; port isolation; power consumption; size 260 nm; size 30 mum; size 40 mum; size 400 mum; switch-on state; switching characteristics; variable-gap silicon photonic waveguide coupler switch; Actuators; Couplers; Latches; Optical switches; Optical waveguides; Silicon; Microelectromechanical systems; Si photonics; waveguide coupler; waveguide switch;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2248354
