Two-color single-photon emission from InAs quantum dots: toward logic information management using quantum light.
Identifieur interne : 000018 ( Main/Exploration ); précédent : 000017; suivant : 000019Two-color single-photon emission from InAs quantum dots: toward logic information management using quantum light.
Auteurs : RBID : pubmed:24422533Abstract
In this work, we propose the use of the Hanbury-Brown and Twiss interferometric technique and a switchable two-color excitation method for evaluating the exciton and noncorrelated electron-hole dynamics associated with single photon emission from indium arsenide (InAs) self-assembled quantum dots (QDs). Using a microstate master equation model we demonstrate that our single QDs are described by nonlinear exciton dynamics. The simultaneous detection of two-color, single photon emission from InAs QDs using these nonlinear dynamics was used to design a NOT AND logic transference function. This computational functionality combines the advantages of working with light/photons as input/output device parameters (all-optical system) and that of a nanodevice (QD size of ∼ 20 nm) while also providing high optical sensitivity (ultralow optical power operational requirements). These system features represent an important and interesting step toward the development of new prototypes for the incoming quantum information technologies.
DOI: 10.1021/nl403364h
PubMed: 24422533
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<author><name sortKey="Rivas, David" uniqKey="Rivas D">David Rivas</name>
<affiliation wicri:level="1"><nlm:affiliation>UMDO (Unidad Asociada al CSIC-IMM), Instituto de Ciencia de Materiales, Universidad de Valencia , P.O. Box 22085, 4607 Valencia, Spain.</nlm:affiliation>
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<author><name sortKey="Mu Oz Matutano, Guillermo" uniqKey="Mu Oz Matutano G">Guillermo Muñoz-Matutano</name>
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<author><name sortKey="Canet Ferrer, Josep" uniqKey="Canet Ferrer J">Josep Canet-Ferrer</name>
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<author><name sortKey="Garc A Calzada, Ra L" uniqKey="Garc A Calzada R">Raúl García-Calzada</name>
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<author><name sortKey="Trevisi, Giovanna" uniqKey="Trevisi G">Giovanna Trevisi</name>
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<author><name sortKey="Seravalli, Luca" uniqKey="Seravalli L">Luca Seravalli</name>
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<author><name sortKey="Frigeri, Paola" uniqKey="Frigeri P">Paola Frigeri</name>
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<author><name sortKey="Mart Nez Pastor, Juan P" uniqKey="Mart Nez Pastor J">Juan P Martínez-Pastor</name>
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<front><div type="abstract" xml:lang="en">In this work, we propose the use of the Hanbury-Brown and Twiss interferometric technique and a switchable two-color excitation method for evaluating the exciton and noncorrelated electron-hole dynamics associated with single photon emission from indium arsenide (InAs) self-assembled quantum dots (QDs). Using a microstate master equation model we demonstrate that our single QDs are described by nonlinear exciton dynamics. The simultaneous detection of two-color, single photon emission from InAs QDs using these nonlinear dynamics was used to design a NOT AND logic transference function. This computational functionality combines the advantages of working with light/photons as input/output device parameters (all-optical system) and that of a nanodevice (QD size of ∼ 20 nm) while also providing high optical sensitivity (ultralow optical power operational requirements). These system features represent an important and interesting step toward the development of new prototypes for the incoming quantum information technologies.</div>
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<Abstract><AbstractText>In this work, we propose the use of the Hanbury-Brown and Twiss interferometric technique and a switchable two-color excitation method for evaluating the exciton and noncorrelated electron-hole dynamics associated with single photon emission from indium arsenide (InAs) self-assembled quantum dots (QDs). Using a microstate master equation model we demonstrate that our single QDs are described by nonlinear exciton dynamics. The simultaneous detection of two-color, single photon emission from InAs QDs using these nonlinear dynamics was used to design a NOT AND logic transference function. This computational functionality combines the advantages of working with light/photons as input/output device parameters (all-optical system) and that of a nanodevice (QD size of ∼ 20 nm) while also providing high optical sensitivity (ultralow optical power operational requirements). These system features represent an important and interesting step toward the development of new prototypes for the incoming quantum information technologies.</AbstractText>
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