We consider a device concept for edge-emitting lasers based on strained germanium microstrips. The device features an inhomogeneous tensile strain distribution generated by a SiN stressor deposited on top of the Ge microstrip. This geometry requires a lateral contact scheme and hence a full two-dimensional description. The two-dimensional simulations of the carrier transport and of the optical field, carried out in a cross section of the device orthogonal to the optical cavity, use microscopic calculations of the strained Ge material gain as an input. In this paper we study laser performance and robustness against Shockley–Read–Hall lifetime variations and device sensitivity to different strain distributions.
Peschka, D., Thomas, M., Glitzky, A., Nürnberg, R., Virgilio, M., Guha, S., et al. (2016). Robustness analysis of a device concept for edge-emitting lasers based on strained germanium. OPTICAL AND QUANTUM ELECTRONICS, 48(2), 1-7 [10.1007/s11082-016-0394-4].
Robustness analysis of a device concept for edge-emitting lasers based on strained germanium
CAPELLINI, GIOVANNI;
2016-01-01
Abstract
We consider a device concept for edge-emitting lasers based on strained germanium microstrips. The device features an inhomogeneous tensile strain distribution generated by a SiN stressor deposited on top of the Ge microstrip. This geometry requires a lateral contact scheme and hence a full two-dimensional description. The two-dimensional simulations of the carrier transport and of the optical field, carried out in a cross section of the device orthogonal to the optical cavity, use microscopic calculations of the strained Ge material gain as an input. In this paper we study laser performance and robustness against Shockley–Read–Hall lifetime variations and device sensitivity to different strain distributions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
