Size invariant twisted optical modes for efficient generation of higher dimensional quantum states

TL;DR

This paper demonstrates that size-invariant perfect optical vortex beams enhance the efficiency of generating high-dimensional quantum states of light, improving heralding efficiency and state dimensionality in quantum optics applications.

Contribution

It introduces the use of size-invariant POV beams in SPDC to generate higher-dimensional OAM quantum states with improved heralding efficiency.

Findings

Heralding efficiency is higher with POV pump beams.

Dimensionality of OAM states increases using POV modes.

POV modes enable more efficient quantum state generation.

Abstract

Optical vortex beams are profiled as helical wavefronts with a phase singularity carrying an orbital angular momentum (OAM) associated with their spatial distribution. The transverse intensity distribution of a conventional optical vortex has a strong dependence on the carried topological charge. However, perfect optical vortex (POV) beams have their transverse intensity distribution independent of their charge. Such `size-invariant' POV beams have found exciting applications in optical manipulation, imaging and communication. In this article, we investigate the use of POV modes in the efficient generation of high dimensional quantum states of light. We generate heralded single photons carrying OAM using spontaneous parametric down-conversion (SPDC) of POV beams. We show that the heralding efficiency of the SPDC single photons generated with POV pump is greater than that with normal optical vortex beams. The dimensionality of the two-photon OAM states is increased with POV modes in the pump and projective measurements using Bessel-Gaussian vortex modes that give POV, instead of the Laguerre-Gaussian modes.