P. G. Kwiat, New high-intensity source of polarization-entangled photon pairs, Phys. Rev. Lett, vol.75, p.4337, 1995.

J. Wang, Multidimensional quantum entanglement with large-scale integrated optics, Sci, vol.360, pp.285-291, 2018.

C. A. Husko, Multi-photon absorption limits to heralded single photon sources, Sci. Rep, vol.3, p.3087, 2013.

M. A. Hall, J. B. Altepeter, and P. Kumar, Drop-in compatible entanglement for optical-fiber networks, Opt. express, vol.17, pp.14558-14566, 2009.

M. A. Hall, J. B. Altepeter, and P. Kumar, Ultrafast switching of photonic entanglement, Phys. Rev. Lett, vol.106, p.53901, 2011.

C. Liang, K. F. Lee, T. Levin, J. Chen, and P. Kumar, Ultra stable all-fiber telecom-band entangled photon-pair source for turnkey quantum communication applications, Opt. express, vol.14, pp.6936-6941, 2006.

S. D. Dyer, B. Baek, and S. W. Nam, High-brightness, low-noise, all-fiber photon pair source, Opt. express, vol.17, pp.10290-10297, 2009.

M. Medic, J. B. Altepeter, M. A. Hall, M. Patel, and P. Kumar, Fiber-based telecommunication-band source of degenerate entangled photons, Opt. Lett, vol.35, pp.802-804, 2010.

Q. Zhou, A polarization maintaining scheme for 1.5 ?m polarization entangled photon pair generation in optical fibers, Eur. Phys. J. D, vol.67, p.202, 2013.

B. J. Smith, P. Mahou, O. Cohen, J. Lundeen, and I. Walmsley, Photon pair generation in birefringent optical fibers, Opt. express, vol.17, pp.23589-23602, 2009.

B. Fang, O. Cohen, and V. O. Lorenz, Polarization-entangled photon-pair generation in commercial-grade polarization-maintaining fiber, JOSA B, vol.31, pp.277-281, 2014.

J. Su, L. Cui, Y. Li, and X. Li, Micro/nano-fiber-based source of heralded single photons at the telecom band. Chin, Opt. Lett, vol.16, p.41903, 2018.

L. Cui, Generation of correlated photon pairs in micro/nano-fibers, Opt. Lett, vol.38, pp.5063-5066, 2013.

J. E. Sharping, J. Chen, X. Li, P. Kumar, and R. S. Windeler, Quantum-correlated twin photons from microstructure fiber, Opt. Express, vol.12, pp.3086-3094, 2004.

J. Rarity, J. Fulconis, J. Duligall, W. Wadsworth, and P. S. Russell, Photonic crystal fiber source of correlated photon pairs, Opt. express, vol.13, pp.534-544, 2005.

J. Fulconis, O. Alibart, J. L. O'brien, W. J. Wadsworth, and J. G. Rarity, Nonclassical interference and entanglement generation using a photonic crystal fiber pair photon source, Physical Review Letters, vol.99, p.120501, 2007.

J. Fan, M. Eisaman, and A. Migdall, Bright phase-stable broadband fiber-based source of polarization-entangled photon pairs, Phys. Rev. A, vol.76, p.43836, 2007.

E. A. Goldschmidt, M. D. Eisaman, J. Fan, S. V. Polyakov, and A. Migdall, Spectrally bright and broad fiber-based heralded singlephoton source, Phys. Rev. A, vol.78, p.13844, 2008.

M. Halder, Nonclassical 2-photon interference with separate intrinsically narrowband fibre sources, Opt. express, vol.17, pp.4670-4676, 2009.

O. Cohen, Tailored photon-pair generation in optical fibers, Phys. Rev. Lett, vol.102, p.123603, 2009.

G. P. Agrawal, Nonlinear fiber optics, 2007.

M. Fiorentino, P. L. Voss, J. E. Sharping, and P. Kumar, All-fiber photon-pair source for quantum communications, IEEE Photonics Technol. Lett, vol.14, pp.983-985, 2002.

K. Inoue and K. Shimizu, Generation of quantum-correlated photon pairs in optical fiber: influence of spontaneous raman scattering, Japanese J. Appl. Phys, vol.43, p.8048, 2004.

K. Park, D. Lee, Y. S. Ihn, Y. Kim, and H. Shin, Observation of photon-pair generation in the normal group-velocity-dispersion regime with slight detuning from the pump wavelength, N. J. Phys, vol.20, p.103004, 2018.

L. Yang, X. Ma, X. Guo, L. Cui, and X. Li, Characterization of a fiber-based source of heralded single photons, Phys. Rev. A, vol.83, p.53843, 2011.

F. Zhu, W. Zhang, and Y. Huang, Fiber-based frequency-degenerate polarization entangled photon pair sources for information encoding, Opt. express, vol.24, pp.25619-25628, 2016.

R. H. Stolen, E. Ippen, and A. Tynes, Raman oscillation in glass optical waveguide, Appl. Phys. Lett, vol.20, pp.62-64, 1972.

R. J. Francis-jones and P. J. Mosley, Fibre-integrated noise gating of high-purity heralded single photons, J. Opt, vol.19, p.104005, 2017.

R. J. Francis-jones, R. A. Hoggarth, and P. J. Mosley, All-fiber multiplexed source of high-purity single photons, Optica, vol.3, pp.1270-1273, 2016.

A. Ling, J. Chen, J. Fan, and A. Migdall, Mode expansion and bragg filtering for a high-fidelity fiber-based photon-pair source, Opt. express, vol.17, pp.21302-21312, 2009.

J. Fan and A. Migdall, A broadband high spectral brightness fiber-based two-photon source, Opt. express, vol.15, pp.2915-2920, 2007.

J. D. Harvey, Scalar modulation instability in the normal dispersion regime by use of a photonic crystal fiber, Opt. Lett, vol.28, pp.2225-2227, 2003.

F. Couny, F. Benabid, P. Roberts, P. Light, and M. Raymer, Generation and photonic guidance of multi-octave optical-frequency combs, Sci, vol.318, pp.1118-1121, 2007.

M. A. Finger, T. S. Iskhakov, N. Y. Joly, M. V. Chekhova, and P. S. Russell, Raman-free, noble-gas-filled photonic-crystal fiber source for ultrafast, very bright twin-beam squeezed vacuum, Phys. Rev. Lett, vol.115, p.143602, 2015.

M. Azhar, G. Wong, W. Chang, N. Joly, and P. S. Russell, Raman-free nonlinear optical effects in high pressure gas-filled hollow core pcf, Opt. express, vol.21, pp.4405-4410, 2013.

K. Lynch-klarup, Supercritical xenon-filled hollow-core photonic bandgap fiber, Opt. express, vol.21, pp.13726-13732, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00923889

P. S. Russell, P. Hölzer, W. Chang, A. Abdolvand, and J. Travers, Hollow-core photonic crystal fibres for gas-based nonlinear optics, Nat. Photonics, vol.8, p.278, 2014.

B. Debord, F. Amrani, L. Vincetti, F. Gérôme, and F. Benabid, Hollow-core fiber technology: The rising of "gas photonics, Fibers, vol.7, p.16, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02150252

M. Cordier, Raman-tailored photonic crystal fiber for telecom band photon-pair generation, Opt. Lett, vol.42, pp.2583-2586, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01591061

M. Barbier, I. Zaquine, and P. Delaye, Spontaneous four-wave mixing in liquid-core fibers: towards fibered raman-free correlated photon sources, N. J. Phys, vol.17, p.53031, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01192679

M. Finger, N. Joly, P. S. Russell, and M. Chekhova, Characterization and shaping of the time-frequency schmidt mode spectrum of bright twin beams generated in gas-filled hollow-core photonic crystal fibers, Phys. Rev. A, vol.95, p.53814, 2017.

M. Cordier, Active engineering of four-wave mixing spectral correlations in multiband hollow-core fibers, Opt. express, vol.27, pp.9803-9814, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02141395

K. Garay-palmett, Photon pair-state preparation with tailored spectral properties by spontaneous four-wave mixing in photonic-crystal fiber, Opt. express, vol.15, pp.14870-14886, 2007.

J. B. Spring, On-chip low loss heralded source of pure single photons, Opt. express, vol.21, pp.13522-13532, 2013.

W. Mauerer, M. Avenhaus, W. Helwig, and C. Silberhorn, How colors influence numbers: Photon statistics of parametric downconversion, Phys. Rev. A, vol.80, p.53815, 2009.

L. Caspani, Integrated sources of photon quantum states based on nonlinear optics, Light: Sci. Appl, vol.6, p.17100, 2017.

A. Migdall, S. V. Polyakov, J. Fan, and J. C. Bienfang, Single-photon generation and detection: physics and applications, vol.45, 2013.

R. A. Smith, D. V. Reddy, D. L. Vitullo, and M. Raymer, Double-heralded generation of two-photon-states by spontaneous four-wavemixing in the presence of noise, Opt. express, vol.24, pp.5809-5821, 2016.

C. Law, I. Walmsley, and J. Eberly, Continuous frequency entanglement: effective finite hilbert space and entropy control, Phys. Rev. Lett, vol.84, p.5304, 2000.