Cooperative Lamb shift and superradiance in an optoelectronic device

G Frucci,A Vasanelli,G Beaudoin,Y Todorov,B Dailly,C Sirtori,S Huppert,I Sagnes

doi:10.1088/1367-2630/aa631d

Cooperative Lamb shift and superradiance in an optoelectronic device

G Frucci, A Vasanelli + Show 6 more

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Journal: New Journal of Physics	Publication Date: Apr 1, 2017
Citations: 11	License type: cc-by

Affiliation: Laboratory Materials and Quantum Phenomena, Sorbonne Paris Cité, Université Paris Cité, Centre for Nanoscience and Nanotechnology, University of Paris-Saclay, University of Paris-Sud, Institut Polytechnique de Paris, French National Centre for Scientific Research

#Exchange Of Virtual Photons #Cooperative Lamb Shift #Separated Quantum Wells #Virtual Photon #Single Excitation #Plasma Oscillations #Quantum Wells #Exchange Of Photons #Virtual Exchange #Enhancement Of Emission

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When a single excitation is shared between a large number of two-level systems, a strong enhancement of the spontaneous emission appears. This phenomenon is known as superradiance. This enhanced rate can be accompanied by a shift of the emission frequency, the cooperative Lamb shift, issued from the exchange of virtual photons between the emitters. In this work we present a semiconductor optoelectronic device allowing the observation of these two phenomena at room temperature. We demonstrate experimentally and theoretically that plasma oscillations in spatially separated quantum wells interact through real and virtual photon exchange. This gives rise to a superradiant mode displaying a large cooperative Lamb shift.

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Cooperative Lamb shift and superradiance in an optoelectronic device