Malte Avenhaus scite author profile

We demonstrate the implementation of a fiber-integrated spectrograph utilizing chromatic group velocity dispersion (GVD) in a single-mode fiber. By means of GVD we stretch an ultrafast pulse in time in order to spectrally resolve single photons in the time domain, detected by single-photon counting modules with very accurate temporal resolution. As a result, the spectrum of a very weak pulse is recovered from a precise time measurement with high signal-to-noise ratio. We demonstrate the potential of our technique by applying our scheme to analyzing the joint spectral intensity distribution of a parametric downconversion source at a telecommunication wavelength.

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Accessing Higher Order Correlations in Quantum Optical States by Time Multiplexing

Avenhaus

Laiho²,

Chekhova³

et al. 2010

Phys. Rev. Lett.

148

121

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We experimentally measured higher order normalized correlation functions (NCF) of pulsed light with a time-multiplexing detector. We demonstrate excellent performance of our device by verifying unity valued NCF up to the eighth order for coherent light and factorial dependence of the NCF for pseudothermal light. We applied our measurement technique to a type-II parametric down-conversion source to investigate mutual two-mode correlation properties and ascertain nonclassicality.

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Photon Number Statistics of Multimode Parametric Down-Conversion

Avenhaus¹,

Coldenstrodt-Ronge

Laiho³

et al. 2008

Phys. Rev. Lett.

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We experimentally analyze the complete photon number statistics of parametric down-conversion and ascertain the influence of multimode effects. Our results clearly reveal a difference between single-mode theoretical description and the measured distributions. Further investigations assure the applicability of loss-tolerant photon number reconstruction and prove strict photon number correlation between signal and idler modes.

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How colors influence numbers: Photon statistics of parametric down-conversion

Mauerer¹,

Avenhaus²,

Helwig³

et al. 2009

Phys. Rev. A

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Parametric downconversion (PDC) is a technique of ubiquitous experimental significance in the production of non-classical, photon-number correlated twin beams. Standard theory of PDC as a two-mode squeezing process predicts and homodyne measurements observe a thermal photon number distribution per beam. Recent experiments have obtained conflicting distributions. In this paper, we explain the observation by an a-priori theoretical model solely based on directly accessible physical quantities. We compare our predictions with experimental data and find excellent agreement.

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Experimental verification of high spectral entanglement for pulsed waveguided spontaneous parametric down-conversion

Avenhaus

Chekhova²,

Krivitsky³

et al. 2009

Phys. Rev. A

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We study the spectral properties of spontaneous parametric down-conversion (SPDC) in a periodically poled waveguided structure of potassium-titanyl-phosphate (KTP) crystal pumped by ultrashort pulses. Our theoretical analysis reveals a strongly entangled and asymmetric structure of the two-photon spectral amplitude for type-II SPDC. We confirm these predictions experimentally by measuring single-photon spectra, on one hand, and the dependence of Hong-Ou-Mandel interference visibility on the width of spectral filtering, on the other hand

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Malte Avenhaus

Fiber-assisted single-photon spectrograph

Accessing Higher Order Correlations in Quantum Optical States by Time Multiplexing

Photon Number Statistics of Multimode Parametric Down-Conversion

How colors influence numbers: Photon statistics of parametric down-conversion

Experimental verification of high spectral entanglement for pulsed waveguided spontaneous parametric down-conversion

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