Correlated quantum Airy photons: An analytical approach
Year: 2026
Authors: Sau V., Giustozzi R., Piergentili P., Vitali D., Di Giuseppe G., Ghosh S., Roy U.
Autors Affiliation: Indian Inst Technol Patna, Phys, Patna 801106, Bihar, India; Univ Camerino, Sch Sci & Technol, Phys Div, I-62032 Camerino, Macerata, Italy; INFN, Sez Perugia, via A Pascoli, I-06123 Perugia, Italy; CNR INO, Largo Enrico Fermi 6, I-50125 Florence, Italy; Siksha O Anusandhan Univ, Ctr Quantum Sci & Technol, Bhubaneswar 751030, Odisha, India.
Abstract: We describe the generation of correlated photon pairs by means of spontaneous parametric down-conversion of an optical pump in the form of a finite-energy Airy beam. The optical system function, which contributes to the propagation of the down-converted beam before being registered by the detectors, is computed. The spectral function is utilized to calculate the biphoton amplitude for finding the coincidence count of the inbound Airy photons in both far-field and near-field configurations. We report the reconstruction of the finite-energy Airy beam in the spatial correlation of the down-converted beams in a near-field scenario. In the far field, the coincidence counts resemble the probability density of the biphoton in momentum space, revealing a direct mapping of the anticorrelation of the biphoton momentum. By examining the spatial Schmidt modes, we also demonstrate that longer crystals have tighter real-space correlations, but higher-dimensional angular correlations, whereas shorter crystals have fewer modes in momentum space and broader multimode correlations in position space.
Journal/Review: PHYSICAL REVIEW A
Volume: 113 (2) Pages from: 23509-1 to: 23509-13
More Information: V.S. thanks DST Inspire, Government of India, for financial support. P.P., D.V., and G.D.G. acknowledge fi-nancial support from NQSTI within PNRR MUR Project No. PE0000023-NQSTI. U.R. acknowledges financial sup-port from Indian National Quantum Mission (Grant No. DST/QTC/NQM/QC/2024/1) .KeyWords: Entanglement; Generation; SpectrumDOI: 10.1103/9lvb-qrl3
