Title :
The optical response of epitaxial lift-off HEMT´s to 140 GHz
Author :
Bhattacharya, Daipayan ; Erlig, Hernan ; Ali, Mohammed E. ; Wang, Shamino ; Fetterman, Harold R. ; Lai, Richard ; Streit, Dwight C.
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
9/1/1997 12:00:00 AM
Abstract :
We present measurements on the optical frequency response of epitaxial lift-off (ELO) 1.0-μm InP high-electron mobility transistors (HEMTs) to 140 GHz using electrooptic sampling and heterodyne techniques. Our picosecond sampling measurements established that the lift-off devices exhibited substantial optical response to 140 GHz. Heterodyne measurements made at 60 and 94 GHz later confirmed these findings. A novel three wave mixing technique was used to extend the heterodyne bandwidth to 130 GHz. In these experiments, millimeter waves were generated in our optically driven HEMT´s and launched into waveguides. These lift off devices can be major additions to future millimeter wave integrated optoelectronic systems either as high frequency optical detectors or as optically driven tunable millimeter wave sources
Keywords :
III-V semiconductors; demodulation; epitaxial growth; frequency response; high electron mobility transistors; high-speed optical techniques; indium compounds; integrated optoelectronics; millimetre wave generation; semiconductor growth; 130 GHz; 140 GHz; 60 to 94 GHz; InP; InP high-electron mobility transistors; electrooptic sampling; epitaxial lift-off HEMTs; heterodyne bandwidth; heterodyne techniques; high frequency optical detectors; millimeter wave generation; millimeter wave integrated optoelectronic systems; optical frequency response; optical response; optically driven tunable millimeter wave sources; picosecond sampling measurements; three wave mixing technique; Frequency measurement; HEMTs; MODFETs; Millimeter wave devices; Millimeter wave technology; Millimeter wave transistors; Optical devices; Optical mixing; Optical waveguides; Sampling methods;
Journal_Title :
Quantum Electronics, IEEE Journal of
