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Paper detail

Toward high-frequency operation of spin lasers

Injecting spin-polarized carriers into semiconductor lasers provides important opportunities to extend what is known about spintronic devices, as well as to overcome many limitations of conventional (spin-unpolarized) lasers. By developing a microscopic model of spin-dependent optical gain derived from an accurate electronic structure in a quantum well-based laser, we study how its operation properties can be modified by spin-polarized carriers, carrier density, and resonant cavity design. We reveal that by applying a uniaxial strain, it is possible to attain a large birefringence. While such birefringence is viewed as detrimental in conventional lasers, it could enable fast polarization oscillations of the emitted light in spin lasers which can be exploited for optical communication and high-performance interconnects. The resulting oscillation frequency ($>200$ GHz) would significantly exceed the frequency range possible in conventional lasers.

preprint2015arXivOpen access
Paulo E. Faria JuniorGaofeng XuJeongsu LeeNils C. GerhardtGuilherme M. SipahiIgor Žutić
cond-mat.mes-hallcond-mat.other
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Paulo E. Faria JuniorGaofeng XuJeongsu LeeNils C. GerhardtGuilherme M. SipahiIgor Žutić

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