Characterization of quantum interference control of injected currents in LT-GaAs for carrier-envelope phase measurements

We use two mutually coherent, harmonically related pulse trains to experimentally characterize quantum interference control (QIC) of injected currents in low-temperature-grown gallium arsenide. We observe real-time QIC interference fringes, optimize the QIC signal fidelity, uncover critical signal d...

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Veröffentlicht in:	Optics express 2003-08, Vol.11 (17), p.2081-2090
Hauptverfasser:	Roos, Peter, Quraishi, Qudsia, Cundiff, Steven, Bhat, Ravi, Sipe, J
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Sprache:	eng
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container_end_page	2090
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container_title	Optics express
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creator	Roos, Peter Quraishi, Qudsia Cundiff, Steven Bhat, Ravi Sipe, J
description	We use two mutually coherent, harmonically related pulse trains to experimentally characterize quantum interference control (QIC) of injected currents in low-temperature-grown gallium arsenide. We observe real-time QIC interference fringes, optimize the QIC signal fidelity, uncover critical signal dependences regarding beam spatial position on the sample, measure signal dependences on the fundamental and second harmonic average optical powers, and demonstrate signal characteristics that depend on the focused beam spot sizes. Following directly from our motivation for this study, we propose an initial experiment to measure and ultimately control the carrier-envelope phase evolution of a single octave-spanning pulse train using the QIC phenomenon.
doi_str_mv	10.1364/oe.11.002081
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title	Characterization of quantum interference control of injected currents in LT-GaAs for carrier-envelope phase measurements
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