2008
DOI: 10.1364/oe.16.016052
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Broadband source of telecom-band polarization-entangled photon-pairs for wavelength-multiplexed entanglement distribution

Abstract: Studies on telecom-band entangled photon-pair sources for entanglement distribution have so far focused on their narrowband operations. Fiber-based sources are seriously limited by spontaneous Raman scattering while sources based on quasi-phase-matched crystals or waveguides are usually narrowband because of long device lengths and/or operations far from degeneracy. An entanglement distributor would have to multiplex many such narrowband sources before entanglement distribution to fully utilize the available f… Show more

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Cited by 53 publications
(47 citation statements)
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“…They used a telecom wavelength broadband hybrid polarization entangled photon pair source based on a type-0 PPLN/W in a Sagnac loop configuration. Strong correlations across the full emission spectrum of the source were found, which demonstrate the potential for an N times speed-up of coincidence rates [125][126][127][128]. In 2013, a similar experiment was reported by a collaboration between Stockholm (Sweden), Vienna (Austria), and Waterloo (Canada), using a hybrid polarization entanglement source, this time based on two type-0 PPLN/W in a Mach-Zehnder configuration.…”
Section: E Advanced Photonic Entanglement Sourcessupporting
confidence: 55%
“…They used a telecom wavelength broadband hybrid polarization entangled photon pair source based on a type-0 PPLN/W in a Sagnac loop configuration. Strong correlations across the full emission spectrum of the source were found, which demonstrate the potential for an N times speed-up of coincidence rates [125][126][127][128]. In 2013, a similar experiment was reported by a collaboration between Stockholm (Sweden), Vienna (Austria), and Waterloo (Canada), using a hybrid polarization entanglement source, this time based on two type-0 PPLN/W in a Mach-Zehnder configuration.…”
Section: E Advanced Photonic Entanglement Sourcessupporting
confidence: 55%
“…58 However, this source is less efficient since the photons pair emitted conically and only a small fraction of the cone can be collected for use. Regarding of this, beam-like entangled photons are more attractive, which can be achieved by coherently combining two SPDC sources at a polarizing beam splitter, [59][60][61][62][63][64][65] by manipulating polarization ququarts, 66 by overlapping two cascaded PP crystals. 67,68 However, a compact, postselection-free and bright polarization-entangled photons source is more valuable for practical applications.…”
Section: Integrated Engineering Of Polarization- Path-and Hyper-ementioning
confidence: 99%
“…At d Au = 15 nm, the bandwidth where the absorptance is > 90% is limited to 30 nm, and the maximum absorptance is reduced to 93%. These feature of the narrow bandwidth and the low absorptance may be not suitable to measure a broad band photon source such as an entangled broadband photon source [9]. Figure 2(b) is the dependence of absorption on the number of AR layers n AR with the fixed gold thickness of d Au = 10 nm.…”
Section: Design Of Ti-tes Optical Cavity Covered With Thin Gold Filmmentioning
confidence: 99%