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Ultrafast spin-lasers

Markus Lindemann (), Gaofeng Xu, Tobias Pusch, Rainer Michalzik, Martin R. Hofmann, Igor Žutić and Nils C. Gerhardt ()
Additional contact information
Markus Lindemann: Ruhr-Universität Bochum
Gaofeng Xu: University at Buffalo, SUNY
Tobias Pusch: Ulm University
Rainer Michalzik: Ulm University
Martin R. Hofmann: Ruhr-Universität Bochum
Igor Žutić: University at Buffalo, SUNY
Nils C. Gerhardt: Ruhr-Universität Bochum

Nature, 2019, vol. 568, issue 7751, 212-215

Abstract: Abstract Lasers have both ubiquitous applications and roles as model systems in which non-equilibrium and cooperative phenomena can be elucidated1. The introduction of novel concepts in laser operation thus has potential to lead to both new applications and fundamental insights2. Spintronics3, in which both the spin and the charge of the electron are used, has led to the development of spin-lasers, in which charge-carrier spin and photon spin are exploited. Here we show experimentally that the coupling between carrier spin and light polarization in common semiconductor lasers can enable room-temperature modulation frequencies above 200 gigahertz, exceeding by nearly an order of magnitude the best conventional semiconductor lasers. Surprisingly, this ultrafast operation of the resultant spin-laser relies on a short carrier spin relaxation time and a large anisotropy of the refractive index, both of which are commonly viewed as detrimental in spintronics3 and conventional lasers4. Our results overcome the key speed limitations of conventional directly modulated lasers and offer a prospect for the next generation of low-energy ultrafast optical communication.

Date: 2019
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Citations: View citations in EconPapers (4)

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DOI: 10.1038/s41586-019-1073-y

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