Title :
Ge Photodetector Monolithically Integrated on Si by Rapid-Melting-Growth Technique
Author :
Po-Han Huang ; Chin-Hsien Chou ; Cheng-Lun Hsin
Author_Institution :
Dept. of Electr. Eng., Nat. Central Univ., Jhongli, Taiwan
Abstract :
Germanium-based optoelectronic devices have the potential applications in optical communication and detections. In this letter, we demonstrated that high-quality Ge quasi-epilayer can be achieved by rapid-melting-growth and integrated-circuit compatible process. Raman and microscopy techniques revealed that the as-deposited Ge on the silicon substrate became quasi-single crystalline while nanocrystallites embedded within the Ge layer. The Ge/Si heterostructure photodetectors were fabricated with desirable responsivity of 0.22 A/W at -1 V reverse bias and the ratio of photocurrent and dark current is up to 2000 at -0.65 V. This technique demonstrated the possibility of monolithic integration of Ge photodetector for future optical communications at 1.31 μm in wavelength with Si electronic circuitry.
Keywords :
dark conductivity; elemental semiconductors; germanium; integrated optics; integrated optoelectronics; monolithic integrated circuits; optical communication equipment; optical fabrication; optoelectronic devices; photodetectors; photoemission; silicon; Ge-Si; Raman techniques; Si electronic circuitry; dark current; high-quality Ge quasiepilayer; integrated circuit compatible process; microscopy techniques; monolithically integrated photodetector; nanocrystallites; optical communication; optoelectronic devices; photocurrent; quasisingle crystalline; rapid-melting-growth; reverse bias; voltage -0.65 V; voltage -1 V; Dark current; Microscopy; Optical waveguides; Photodetectors; Photonics; Silicon; Substrates; GE; Ge; PIN photodetector; Rapid-melting-growth; rapid-melting-growth;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2415837
