Spiral bandwidth of four-wave mixing in rubidium vapour

Rachel F. Offer; Dalius Stulga; Erling Riis; Sonja Franke-Arnold; Aidan S. Arnold

2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2019),
paper ef_7_5

Spiral bandwidth of four-wave mixing in rubidium vapour

Rachel F. Offer, Dalius Stulga, Erling Riis, Sonja Franke-Arnold, and Aidan S. Arnold

European Quantum Electronics Conference 2019

Munich Germany
23–27 June 2019
ISBN: 978-1-7281-0469-0

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Quantum and random systems (ef_7)

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R. F. Offer, D. Stulga, E. Riis, S. Franke-Arnold, and A. S. Arnold, "Spiral bandwidth of four-wave mixing in rubidium vapour," in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2019), paper ef_7_5.

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Abstract

Atomic vapours are an experimentally simple and efficient system in which to study nonlinear wave mixing. We study a four-wave mixing (FWM) process in rubidium vapour which efficiently converts 780 and 776 nm light to 420 nm and 5.2 µm fields [1]. In particular, we quantitatively investigate the transfer of orbital angular momentum (OAM) between the FWM fields. OAM, and structured light more generally, is an important research tool for optical manipulation, imaging and communication. Phase-matched nonlinear processes are both longitudinally and transversely phase coherent, and therefore OAM, which is associated with spiral phase fronts, must be conserved between the pump and generated fields [2]. This makes wave mixing an ideal tool for frequency conversion and generation of a variety of OAM states for use in both classical and quantum communication [3].

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