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Communication Dans Un Congrès Année : 2000

Coherence properties of thermal near-fields : implications for nanometer-scale radiative transfer

Résumé

With the recent development of local (optical and thermal) probe microscopy and the advent of nanotechnology, it seems necessary to revisit the old subject of coherence properies of thermal sources of light. Concerning temporal coherence, we show that thermal sources may produce quasi-monochromatic near fields. In light of this result, the possibility of perfoming near-field solid-state spectroscopy and of designing near-field infrared sources is discussed. The problem of radiative transfer between two thermal sources held at subwavelength distance is studied. The radiative flux may be enhanced by several orders of magnitude due to the excitation of resonant surface waves, and this may occur at particular frequencies. Finally, we study the spatial coherence of thermal sources and the substantial influence of the near field. Surface waves may induce long-range spatial correlation, on a scale much larger than the wavelength. Conversely, quasi-static contributions, as well as skin-layer currents, induce arbitary small correlations. With the recent development of local (optical and thermal) probe microscopy and the advent of nanotechnology, it seems necessary to revisit the old subject of coherence of thermal fields.
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Dates et versions

hal-01782930 , version 1 (02-05-2018)

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  • HAL Id : hal-01782930 , version 1

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Jean-Jacques Greffet. Coherence properties of thermal near-fields : implications for nanometer-scale radiative transfer . Third European Summer-school, Sep 2000, Varenna, Italy. ⟨hal-01782930⟩
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