Title :
Terahertz-emitting devices based on boron-doped silicon
Author :
Troeger, Ralph T. ; Adam, Thomas N. ; Ray, Samit K. ; Lv, Engcheng ; Kim, Sangcheol ; Xuan, Guangchi ; Ghosh, Suddhasatwa ; Kolodzey, James
Author_Institution :
Dept. of Electr. & Comput. Eng., Delaware Univ., Newark, DE, USA
Abstract :
Terahertz light emission was observed near 8 THz from electrically pumped boron-doped Si mesas. Samples were fabricated by depositing contacts using metal evaporation and a standard lift-off technique, followed by multi-step reactive ion etching. At a sample temperature of 4.4 K, we observed total emitted time-resolved powers of up to 31 μW, integrated over three closely spaced spectral lines. The spectral positions of these lines show excellent agreement with published data for transitions between hydrogenic states of the boron acceptor impurity in Si. Our findings suggest that moderate power CMOS-compatible terahertz sources can be fabricated without epitaxially grown quantum wells.
Keywords :
epitaxial growth; impurities; light emitting devices; quantum well lasers; semiconductor doping; silicon compounds; 4.4 K; Si:B; acceptor impurity; boron-doped silicon; charge carrier processes; epitaxially grown quantum wells; hydrogenic states; lift-off technique; metal evaporation; multistep reactive ion etching; power CMOS-compatible terahertz sources; semiconductor impurities; semiconductor laser; spectral lines; terahertz light emission; terahertz-emitting devices; Boron; Contacts; Electroluminescence; Etching; Gold; Plasma temperature; Quantum cascade lasers; Semiconductor impurities; Silicon; Temperature measurement;
Conference_Titel :
Microwave Symposium Digest, 2004 IEEE MTT-S International
Print_ISBN :
0-7803-8331-1
DOI :
10.1109/MWSYM.2004.1335895
