Search For Trapped Antihydrogen

Gorm B. Andresen; Mohammad D. Ashkezari; Marcelo Baquero-Ruiz; William; Bertsche; Paul D. Bowe; Crystal C. Bray; Eoin Butler; Claudio L. Cesar,; Steven Chapman; Michael Charlton; Joel Fajans; Tim Friesen; Makoto C.; Fujiwara; David R. Gill; Jeffrey S. Hangst; Walter N. Hardy; Ryugo S. Hayano,; Michael E. Hayden; Andrew J. Humphries; Richard Hydomako; Svante Jonsell,; Lars V. J{\o}rgensen; Lenoid Kurchaninov; Ricardo Lambo; Niels Madsen; Scott; Menary; Paul Nolan; Konstantin Olchanski; Art Olin; Alexander Povilus,; Petteri Pusa; Francis Robicheaux; Eli Sarid; Sarah Seif El Nasr; Daniel M.; Silveira; Chukman So; James W. Storey; Robert I. Thompson; Dirk P. van der; Werf; Dean Wilding; Jonathan S. Wurtele; and Yasunori Yamazaki

arXiv:1012.4110·physics.atom-ph·August 14, 2016

Search For Trapped Antihydrogen

Gorm B. Andresen, Mohammad D. Ashkezari, Marcelo Baquero-Ruiz, William, Bertsche, Paul D. Bowe, Crystal C. Bray, Eoin Butler, Claudio L. Cesar,, Steven Chapman, Michael Charlton, Joel Fajans, Tim Friesen, Makoto C., Fujiwara, David R. Gill, Jeffrey S. Hangst, Walter N. Hardy

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TL;DR

This study reports the first high-sensitivity search for trapped antihydrogen atoms at CERN, successfully identifying potential trapped antihydrogen events with significant statistical confidence after a three-week experiment.

Contribution

The paper introduces advanced diagnostics and techniques for controlling experimental parameters, enabling a sensitive search for antihydrogen trapping with a novel detection method.

Findings

01

Detected six antihydrogen candidate events

02

Achieved a 5.6 sigma significance level for the detection

03

Developed precise control over plasma conditions and detection methods

Abstract

We present the results of an experiment to search for trapped antihydrogen atoms with the ALPHA antihydrogen trap at the CERN Antiproton Decelerator. Sensitive diagnostics of the temperatures, sizes, and densities of the trapped antiproton and positron plasmas have been developed, which in turn permitted development of techniques to precisely and reproducibly control the initial experimental parameters. The use of a position-sensitive annihilation vertex detector, together with the capability of controllably quenching the superconducting magnetic minimum trap, enabled us to carry out a high-sensitivity and low-background search for trapped synthesised antihydrogen atoms. We aim to identify the annihilations of antihydrogen atoms held for at least 130 ms in the trap before being released over ~30 ms. After a three-week experimental run in 2009 involving mixing of 10^7 antiprotons with…

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