Spectrally indistinguishable intermodal-vectorial four-wave-mixing in birefringent few-mode fibers for spatial-polarization-frequency hybrid-entangled photon-pairs generation
| Autor: | Gawlik, Andrzej, Bernaś, Marta, Żołnacz, Kinga, Tarnowski, Karol |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | In this paper, we investigate both experimentally and theoretically the two intermodal-vectorial four-wave-mixing processes in birefringent few-mode fibers, which are spectrally indistinguishable. We show that two four-wave-mixing processes involving the four polarization modes of different spatial distributions can overlap spectrally as long as the group refractive indices of the signal and idler modes intersect at the pump wavelength. The experimental confirmation of theoretical predictions is performed with PANDA fiber pumped with an Nd:YAG laser with 1064.3 nm wavelength. The spectral overlap enables the hybrid-entanglement of photons in spatial-polarization-frequency degrees of freedom. Moreover, we discuss that the spectral position of the overlapping FWMs can be tailored by: (i) the relative phase birefringence of the four modes participating in the FWM or (ii) the average chromatic dispersion of the signal/idler modes, allowing to move the process away from detrimental Raman scattering. Interestingly, in the $\pm$ 100 THz range from pump considered here, the gain of FWM depends primarily on the integral overlap between the modes participating in the process and is virtually wavelength-independent. This characteristic makes few-mode birefringent fibers a promising platform for developing flat-gain, spectrally tailored sources of photon pairs entangled in multiple degrees of freedom. Comment: 12 pages, 5 figures |
| Databáze: | arXiv |
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