Title :
Strongly improved frequency response at high-optical input powers from InGaAsP compensated strain MQW electroabsorption modulators
Author :
Sahara, Richard ; Morito, K. ; Sato, K. ; Kotaki, Y. ; Soda, H. ; Okazaki, N.
Author_Institution :
Center for Global Partnership, Nat. Sci. Found., Washington, DC, USA
Abstract :
InGaAsP MQW electroabsorption modulators with and without compensated strain were fabricated and tested. Compensated strain was employed to reduce the valence band discontinuity between the well and barrier, which decreased the heavy-hole carrier escape time. A short optical pulse coupled into the modulator was used to measure the enhancement in carrier escape time from strained compensated InGaAsP quantum wells, for the first time. As a result, the strained MQW sample demonstrated an improved frequency response when operated at high optical input powers and low fields.<>
Keywords :
III-V semiconductors; deformation; electro-optical modulation; electroabsorption; frequency response; gallium arsenide; gallium compounds; indium compounds; semiconductor quantum wells; InGaAsP; InGaAsP compensated strain MQW electroabsorption modulators; frequency response; heavy-hole carrier escape time; high optical input powers; high-optical input powers; low fields; valence band discontinuity; Capacitive sensors; Frequency response; Optical coupling; Optical modulation; Optical pulses; Pulse measurements; Pulse modulation; Quantum well devices; Testing; Time measurement;
Journal_Title :
Photonics Technology Letters, IEEE
