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Paper detail

Subnanosecond spectral diffusion measurement using photon correlation

Spectral diffusion is a result of random spectral jumps of a narrow line as a result of a fluctuating environment. It is an important issue in spectroscopy, because the observed spectral broadening prevents access to the intrinsic line properties. However, its characteristic parameters provide local information on the environment of a light emitter embedded in a solid matrix, or moving within a fluid, leading to numerous applications in physics and biology. We present a new experimental technique for measuring spectral diffusion based on photon correlations within a spectral line. Autocorrelation on half of the line and cross-correlation between the two halves give a quantitative value of the spectral diffusion time, with a resolution only limited by the correlation set-up. We have measured spectral diffusion of the photoluminescence of a single light emitter with a time resolution of 90 ps, exceeding by four orders of magnitude the best resolution reported to date.

preprint2012arXivOpen access
Gregory SallenAdrien TribuThomas AicheleRégis AndréLucien BesombesCatherine BougerolMaxime RichardSerge TatarenkoKuntheak KhengJean-Philippe Poizat
cond-mat.mes-hallphysics.optics
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Gregory SallenAdrien TribuThomas AicheleRégis AndréLucien BesombesCatherine BougerolMaxime RichardSerge TatarenkoKuntheak KhengJean-Philippe Poizat

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