Title :
Surface-normal 4 x 4 nonblocking wavelength-selective optical crossbar interconnect using polymer-based volume holograms and substrate-guided waves
Author :
Zhou, Charles C. ; Sutton, Sean ; Chen, Ray T. ; Davies, Brian M.
Author_Institution :
Microelectron. Res. Center, Texas Univ., Austin, TX, USA
Abstract :
We present a 4/spl times/4 surface-normal wavelength-selective nonblocking crossbar using polymer-based volume holograms and substrate-guided waves. A prototype device is demonstrated using the center wavelengths of 750, 780, 810, and 840 nm. The employment of wavelength-division multiplexer and of address coding reduce the required 16 wavelengths to four while maintaining the 4/spl times/4 interconnects. Diffraction efficiencies of 85%, 83%, 79%, and 82% are experimentally confirmed for randomly polarized light at 750, 780, 810, and 840 mm, respectively. The measured crosstalk is less than -24 dB.
Keywords :
encoding; holographic gratings; holography; optical crosstalk; optical interconnections; optical polymers; wavelength division multiplexing; 4/spl times/4 interconnects; 4/spl times/4 surface-normal wavelength-selective nonblocking crossbar; 750 nm; 780 nm; 79 percent; 810 nm; 82 percent; 83 percent; 840 nm; 85 percent; center wavelengths; diffraction efficiencies; measured crosstalk; optical interconnections; polymer-based volume holograms; randomly polarized light; substrate-guided waves; surface-normal 4/spl times/4 nonblocking wavelength-selective optical crossbar interconnect; wavelength-division multiplexer; Diffraction; Employment; Optical crosstalk; Optical polarization; Optical polymers; Optical surface waves; Prototypes; Surface waves; Wavelength division multiplexing; Wavelength measurement;
Journal_Title :
Photonics Technology Letters, IEEE
