A Rydberg hydrogen beam for studies of stimulated deexcitation

Tim Wolz; Maxime Allemand; Daniel Comparat; Jules Cras; Carina; Killian; Chlo\'e Malbrunot; Fredrik Parnefjord Gustafsson; Martin Simon,; Christophe Siour; Eberhard Widmann

arXiv:2204.09537·physics.atom-ph·April 28, 2022

A Rydberg hydrogen beam for studies of stimulated deexcitation

Tim Wolz, Maxime Allemand, Daniel Comparat, Jules Cras, Carina, Killian, Chlo\'e Malbrunot, Fredrik Parnefjord Gustafsson, Martin Simon,, Christophe Siour, Eberhard Widmann

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TL;DR

This paper introduces a Rydberg hydrogen beamline designed to develop stimulated deexcitation techniques, aiming to improve antihydrogen experiments by increasing ground-state anti-atoms for precise measurements.

Contribution

It presents a novel Rydberg hydrogen beamline tailored for stimulated deexcitation, advancing antihydrogen research at CERN.

Findings

01

Successful development of a Rydberg hydrogen beamline

02

Potential to enhance ground-state antihydrogen production

03

Facilitates precision spectroscopy and gravity measurements

Abstract

We present a Rydberg hydrogen beamline developed to commission techniques of stimulated deexcitation for application in antihydrogen experiments at CERN's Antiproton Decelerator. The stimulation of spontaneous decay is a key technology to enhance the number of ground-state anti-atoms available in a beam toward precision spectroscopy and gravity measurements.

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