Superposition of photon- and phonon- assisted tunneling in coupled
  quantum dots

A. W. Holleitner; A. Wixforth; A.Yu. Smirnov; C. Livermore; C.A. Stafford; C.W.J. Beenakker; D. Goldhaber-Gordon; D. Loss; E.B. Foxman; H. Qin; H. Qin; K. Eberl; R. H. Blick; R.H. Blick; R.H. Blick; T. Brandes; T. Fujisawa; T. Fujisawa; T.H. Oosterkamp; T.H. Stoof

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Superposition of photon- and phonon- assisted tunneling in coupled quantum dots

Authors: A. W. Holleitner
A. Wixforth
A.Yu. Smirnov
C. Livermore
C.A. Stafford
C.W.J. Beenakker
D. Goldhaber-Gordon
D. Loss
E.B. Foxman
H. Qin
H. Qin
K. Eberl
R. H. Blick
R.H. Blick
R.H. Blick
T. Brandes
T. Fujisawa
T. Fujisawa
T.H. Oosterkamp
T.H. Stoof
Publication date: 11 July 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report on electron transport through an artificial molecule formed by two tunnel coupled quantum dots, which are laterally confined in a two-dimensional electron system of an Al

_x

Ga

_{1-x}

As/GaAs heterostructure. Coherent molecular states in the coupled dots are probed by photon-assisted tunneling (PAT). Above 10 GHz, we observe clear PAT as a result of the resonance between the microwave photons and the molecular states. Below 8 GHz, a pronounced superposition of phonon- and photon-assisted tunneling is observed. Coherent superposition of molecular states persists under excitation of acoustic phonons.Comment: 5 pages, 4 figure

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