Stokes-anti-Stokes correlations in diamond

We investigate the arrival statistics of Stokes (S) and anti-Stokes (aS) Raman photons generated in thin diamond crystals. Strong quantum correlations between the S and aS signals are observed, which implies that the two processes share the same phonon; that is, the phonon excited in the S process i...

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Published in	Optics letters Vol. 40; no. 10; p. 2393
Main Authors	Kasperczyk, Mark, Jorio, Ado, Neu, Elke, Maletinsky, Patrick, Novotny, Lukas
Format	Journal Article
Language	English
Published	United States 15.05.2015
Online Access	Get more information
ISSN	1539-4794
DOI	10.1364/OL.40.002393

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Abstract	We investigate the arrival statistics of Stokes (S) and anti-Stokes (aS) Raman photons generated in thin diamond crystals. Strong quantum correlations between the S and aS signals are observed, which implies that the two processes share the same phonon; that is, the phonon excited in the S process is consumed in the aS process. We show that the intensity cross-correlation g(S,aS)(2)(0), which describes the simultaneous detection of Stokes and anti-Stokes photons, increases steadily with decreasing laser power and saturates at very low pump powers, implying that the number of Stokes-induced aS photons is comparable to the number of spontaneously generated aS photons. Furthermore, the coincidence rate shows a quadratic plus cubic power dependence, indicating the generation of multiple S photons per pulse at high powers.
AbstractList	We investigate the arrival statistics of Stokes (S) and anti-Stokes (aS) Raman photons generated in thin diamond crystals. Strong quantum correlations between the S and aS signals are observed, which implies that the two processes share the same phonon; that is, the phonon excited in the S process is consumed in the aS process. We show that the intensity cross-correlation g(S,aS)(2)(0), which describes the simultaneous detection of Stokes and anti-Stokes photons, increases steadily with decreasing laser power and saturates at very low pump powers, implying that the number of Stokes-induced aS photons is comparable to the number of spontaneously generated aS photons. Furthermore, the coincidence rate shows a quadratic plus cubic power dependence, indicating the generation of multiple S photons per pulse at high powers.
Author	Kasperczyk, Mark Neu, Elke Maletinsky, Patrick Novotny, Lukas Jorio, Ado
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26393748$$D View this record in MEDLINE/PubMed
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