Title :
Quantum-well transistor laser for optical interconnect and photonic integrated circuits
Author :
Feng, Ming ; Then, H.W. ; Tan, F. ; Wu, M.K. ; Bambery, R. ; Holonyak, Nick
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Illinois, Urbana, IL, USA
fDate :
Sept. 28 2014-Oct. 1 2014
Abstract :
The heterojunction bipolar transistor laser, inherently a fast switching device, operates by transporting small minority base charge densities ~1016 cm-3 over nano-scale base thickness (<; 900A) in picoseconds. The insertion of quantum-wells and tilted charge in the short base of a transistor reduces recombination lifetime below 30 ps which is critical for extending the direct modulation bandwidth of the semiconductor laser towards 200 GHz. Three-port operation expands the use of the transistor laser (TL) to optical interconnect and photonic integrated circuits.
Keywords :
heterojunction bipolar transistors; integrated optics; optical interconnections; quantum well lasers; frequency 200 GHz; heterojunction bipolar transistor laser; minority base charge densities; modulation bandwidth; nanoscale base thickness; optical interconnect; photonic integrated circuits; quantum-well transistor laser; recombination lifetime; semiconductor laser; switching device; Adaptive optics; Junctions; Optical amplifiers; Radiative recombination; Semiconductor lasers; Stimulated emission; Transistors; Heterojunction bipolar transistor; quantum well laser; three-port laser; transistor laser (TL);
Conference_Titel :
Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), 2014 IEEE
Conference_Location :
Coronado, CA
DOI :
10.1109/BCTM.2014.6981297
