Dynamical control over the confinement of spatially indirect excitons in electrostatic traps of GaAs coupled quantum wells

Aristide Lemaitre; Carmen Gomez; Edmond Cambril; Francois Dubin; Johann Osmond; Mathieu Alloing; Mussie Beian; Romain Anankine; Suzanne Dang

arxiv: 1710.10878 · v1 · pith:UKYXRIQRnew · submitted 2017-10-30 · ❄️ cond-mat.mes-hall · cond-mat.quant-gas

Dynamical control over the confinement of spatially indirect excitons in electrostatic traps of GaAs coupled quantum wells

Mussie Beian , Suzanne Dang , Mathieu Alloing , Romain Anankine , Edmond Cambril , Carmen Gomez , Johann Osmond , Aristide Lemaitre

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Francois Dubin

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classification ❄️ cond-mat.mes-hall cond-mat.quant-gas

keywords excitonsconfinementcontrolelectricelectrostaticgaasindirectquantum

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We study spatially indirect excitons confined in a 10 $\mu$m wide electrostatic trap of a GaAs double quantum well. We introduce a technique to control the amplitude of the electric field interacting with the excitons electric dipole, with nanosecond precision. Our approach relies on electronic waveforms corrected for the distorsions occurring at highest frequencies so that impedance matching is not necessary. Thus, we manipulate the confinement of cold gases without inducing sizeable perturbations down to sub-Kelvin bath temperatures.

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Dynamical control over the confinement of spatially indirect excitons in electrostatic traps of GaAs coupled quantum wells

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