Title :
Optimization of absorption in symmetric self-electrooptic effect devices: a systems perspective
Author :
Lentine, Anthony L. ; Miller, David A B ; Chirovsky, Leo M F ; D´Asaro, L. Arthur
Author_Institution :
AT&T Bell Lab., Naperville, IL, USA
fDate :
11/1/1991 12:00:00 AM
Abstract :
The system switching speed or bit rate and signal beam tolerances of optical processing systems comprised of cascaded symmetric self-electrooptic effect devices (S-SEEDs) are calculated as a function of the absorption characteristics of the devices. It is shown that the optimum design is not characterized simply by best transmission contrast ratio or by largest absolute difference between the low and high absorption states. Because the same diodes are used as detectors and modulators simultaneously, the optimum design for a S-SEED for best system performance is a compromise. The authors find that devices made by maximizing the ratio of the absorption coefficients in the high and low states while minimizing the change in the applied electric field will give nearly optimum system performance
Keywords :
electro-optical devices; electroabsorption; optical bistability; optical logic; optical modulation; optical switches; S-SEED; absorption characteristics; absorption optimisation; applied electric field; bistable loop; bit rate; detectors; high absorption state; low absorption state; modulators; optical logic; optical processing systems; optimum design; signal beam tolerances; symmetric self-electrooptic effect devices; system switching speed; systems perspective; Absorption; Bit rate; Clocks; Logic devices; Logic gates; Optical beams; Optical devices; Optical interconnections; Optical signal processing; System performance;
Journal_Title :
Quantum Electronics, IEEE Journal of
