Multiparameter entangled state engineering using adaptive optics

C. Bonato; D. Simon; P. Villoresi; A. V. Sergienko

arXiv:0810.0932·quant-ph·May 29, 2013

Multiparameter entangled state engineering using adaptive optics

C. Bonato, D. Simon, P. Villoresi, A. V. Sergienko

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TL;DR

This paper explores how adaptive optics can manipulate transverse wave-vectors in quantum entangled states to improve interferometry, demonstrating spatial walk-off compensation and aberration cancellation effects.

Contribution

It introduces a method for using adaptive optics to control entangled photon states, enabling new techniques in quantum interferometry.

Findings

01

Spatial walk-off can be compensated using adaptive optics.

02

Even-order spatial aberrations can be canceled in quantum interferometry.

03

Adaptive optics enhances control over entangled photon states.

Abstract

We investigate how quantum coincidence interferometry is affected by a controllable manipulation of transverse wave-vectors in type-II parametric down conversion using adaptive optics techniques. In particular, we discuss the possibility of spatial walk-off compensation in quantum interferometry and a new effect of even-order spatial aberration cancellation.

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