Reconstruction of the wavefunctions of coupled nanoscopic emitters using a coherent optical technique

2); (2) Department of Chemistry; (3) Zuse Institute Berlin; A. Knorr (1); Berlin; California; F. Schlosser (1); F. Schmidt (3); Germany; Germany)

arxiv: 1201.1765 · v2 · pith:3IP7KPAXnew · submitted 2012-01-09 · ❄️ cond-mat.mes-hall · cond-mat.other· quant-ph

Reconstruction of the wavefunctions of coupled nanoscopic emitters using a coherent optical technique

M. Richter (1 , 2) , F. Schlosser (1) , M. Schoth (1) , S. Burger (3) , F. Schmidt (3) , A. Knorr (1) , S. Mukamel (2) ((1) Institut f\"ur Theoretische Physik

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Technische Universit\"at Berlin Berlin Germany (2) Department of Chemistry University of California Irvine California USA (3) Zuse Institute Berlin Germany)

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classification ❄️ cond-mat.mes-hall cond-mat.otherquant-ph

keywords emittersindividualavailablecoherentcoupledcouplingfunctionslight

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We show that using coherent, spatially resolved spectroscopy, complex hybrid wave functions can be disentangled into the individual wave functions of the individual emitters. This way, detailed information on the coupling of the individual emitters, not available in far-field spectroscopy can be obtained. The proposed quantum state tomography relies on the ability to selectively excite each emitter individually by spatially localized pulses. Simulations of coupled semiconductor Ga/InAs quantum dots, using light fields available in current nanoplasmonics, show that even undesired resonances can be removed from measured spectra. The method can also be applied to study the internal coupling of pigments in photosythesis and artificial light harvesting.

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Reconstruction of the wavefunctions of coupled nanoscopic emitters using a coherent optical technique

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