Title :
Roadmap to an Efficient Germanium-on-Silicon Laser: Strain vs. n-Type Doping
Author :
Dutt, Birendra ; Sukhdeo, Devanand S. ; Nam, Donguk ; Vulovic, Boris M. ; Yuan, Ze ; Saraswat, Krishna C.
Author_Institution :
APIC Corp., Culver City, CA, USA
Abstract :
We provide a theoretical analysis of the relative merits of tensile strain and n-type doping as approaches to realizing an efficient low-power germanium laser. Ultimately, tensile strain offers threshold reductions of over 200x, and significant improvements in slope efficiency compared with the recently demonstrated 0.25% strained electrically pumped germanium laser. In contrast, doping offers fundamentally limited benefits, and too much doping is harmful. Moreover, we predict that tensile strain reduces the optimal doping value and that experimentally demonstrated doping has already reached its fundamental limit. We therefore theoretically show large (>; 1%) tensile strain to be the most viable path to a practical germanium-on-silicon laser.
Keywords :
electron beam pumping; elemental semiconductors; germanium; integrated optoelectronics; optical pumping; semiconductor doping; semiconductor lasers; tensile strength; Ge-Si; germanium-on-silicon laser; low-power germanium laser; n-type doping; slope efficiency; strained electrically pumped germanium laser; tensile strain; threshold reductions; Diode lasers; Doping; Lasers; Semiconductor lasers; Semiconductor materials; Strain; Semiconductor lasers; diode lasers; infrared lasers; optoelectronic materials; semiconductor materials; theory and design;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2012.2221692
