Author:
Eckert Philipp,Achenbach Patrick,Akiyama Takeru,Chen Jinhui,Distler Michael O.,Esser Anselm,Geratz Julian,Helmel Christian,Hoek Michael,Itabashi Kosuke,Kaneta Masashi,Kino Ryoko,Klag Pascal,Ma Yu-Gang,Merkel Harald,Mizuno Masaya,Müller Ulrich,Nagao Sho,Nakamura Satoshi N.,Nakamura Yuki R.,Okuyama Kazuki,Pochodzalla Josef,Schlimme Björn Sören,Sfienti Concettina,Shao Tianhao,Steinen Marcell,Tachibana Koga,Thiel Michaela,Toyama Yuichi,Uehara Keita
Abstract
A high-precision hypernuclear experiment has been commissioned at the Mainz Microtron (MAMI) to determine the hypertriton Λ binding energy via decay-pion spectroscopy. The method has been successfully pioneered with 4ΛH studies in the last decade. The experiment makes use of a novel high luminosity lithium target with a length of 45mm while being only 0.75mm thick to keep momentum smearing of the decay pions low. The target-to-beam alignment as well as the observation of the deposited heat is achieved with a newly developed thermal imaging system. Together with a precise beam energy determination via the undulator light interference method a recalibration of the magnetic spectrometers will be done to obtain a statistical and systematic error of about 20 keV. The experiment started in the summer of 2022 and initial optimization studies for luminosity and data quality are presented.
Cited by
3 articles.
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