Generation of degenerate, factorizable, pulsed squeezed light at telecom wavelengths

Generation of degenerate, factorizable, pulsed squeezed light at telecom wavelengths

We characterize a periodically poled KTP crystal that produces an entangled, two-mode, squeezed state with orthogonal polarizations, nearly identical, factorizable frequency modes, and few photons in unwanted frequency modes. We focus the pump beam to create a nearly circular joint spectral probabil...

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Veröffentlicht in:Optics express 2011-11, Vol.19 (24), p.24434-24447
Hauptverfasser: Gerrits, Thomas, Stevens, Martin J, Baek, Burm, Calkins, Brice, Lita, Adriana, Glancy, Scott, Knill, Emanuel, Nam, Sae Woo, Mirin, Richard P, Hadfield, Robert H, Bennink, Ryan S, Grice, Warren P, Dorenbos, Sander, Zijlstra, Tony, Klapwijk, Teun, Zwiller, Val
Format: Artikel
Sprache:eng
Schlagworte:
Computer-Aided Design
DISTRIBUTION
Equipment Design
Equipment Failure Analysis
Lighting - instrumentation
PHOTONS
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
PROBABILITY
Refractometry - instrumentation
SENSORS
Telecommunications - instrumentation
VISIBILITY
WAVELENGTHS
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Zusammenfassung:We characterize a periodically poled KTP crystal that produces an entangled, two-mode, squeezed state with orthogonal polarizations, nearly identical, factorizable frequency modes, and few photons in unwanted frequency modes. We focus the pump beam to create a nearly circular joint spectral probability distribution between the two modes. After disentangling the two modes, we observe Hong-Ou-Mandel interference with a raw (background corrected) visibility of 86% (95%) when an 8.6 nm bandwidth spectral filter is applied. We measure second order photon correlations of the entangled and disentangled squeezed states with both superconducting nanowire single-photon detectors and photon-number-resolving transition-edge sensors. Both methods agree and verify that the detected modes contain the desired photon number distributions.
ISSN:1094-4087
1094-4087
DOI:10.1364/OE.19.024434