Publikation: Ultrafast optical control of orbital and spin dynamics in a solid-state defect
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2014
Autor:innen
Bassett, Lee C.
Heremans, F. Joseph
Christle, David J.
Yale, Christopher G.
Buckley, Bob B.
Awschalom, David D.
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Science. 2014, 345(6202), pp. 1333-1337. ISSN 0036-8075. eISSN 1095-9203. Available under: doi: 10.1126/science.1255541
Zusammenfassung
Atom-scale defects in semiconductors are promising building blocks for quantum devices, but our understanding of their material-dependent electronic structure, optical interactions, and dissipation mechanisms is lacking. Using picosecond resonant pulses of light, we study the coherent orbital and spin dynamics of a single nitrogen-vacancy center in diamond over timescales spanning six orders of magnitude. We develop a time-domain quantum tomography technique to precisely map the defect’s excited-state Hamiltonian, and exploit the excited-state dynamics to control its ground-state spin with optical pulses alone. These techniques generalize to other optically addressable nanoscale spin systems, and serve as powerful tools to characterize and control spin qubits for future applications in quantum technology.
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BASSETT, Lee C., F. Joseph HEREMANS, David J. CHRISTLE, Christopher G. YALE, Guido BURKARD, Bob B. BUCKLEY, David D. AWSCHALOM, 2014. Ultrafast optical control of orbital and spin dynamics in a solid-state defect. In: Science. 2014, 345(6202), pp. 1333-1337. ISSN 0036-8075. eISSN 1095-9203. Available under: doi: 10.1126/science.1255541BibTex
@article{Bassett2014Ultra-29077,
year={2014},
doi={10.1126/science.1255541},
title={Ultrafast optical control of orbital and spin dynamics in a solid-state defect},
number={6202},
volume={345},
issn={0036-8075},
journal={Science},
pages={1333--1337},
author={Bassett, Lee C. and Heremans, F. Joseph and Christle, David J. and Yale, Christopher G. and Burkard, Guido and Buckley, Bob B. and Awschalom, David D.}
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<dcterms:abstract xml:lang="eng">Atom-scale defects in semiconductors are promising building blocks for quantum devices, but our understanding of their material-dependent electronic structure, optical interactions, and dissipation mechanisms is lacking. Using picosecond resonant pulses of light, we study the coherent orbital and spin dynamics of a single nitrogen-vacancy center in diamond over timescales spanning six orders of magnitude. We develop a time-domain quantum tomography technique to precisely map the defect’s excited-state Hamiltonian, and exploit the excited-state dynamics to control its ground-state spin with optical pulses alone. These techniques generalize to other optically addressable nanoscale spin systems, and serve as powerful tools to characterize and control spin qubits for future applications in quantum technology.</dcterms:abstract>
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