Precise measurement of the $\Lambda$-binding energy difference between $^3_\Lambda$H and $^4_\Lambda$H via decay-pion spectroscopy at MAMI
Nuclear Experiment
2026-04-21 v2
Abstract
We performed high-precision decay-pion spectroscopy of light hypernuclei at the Mainz Microtron (MAMI) using the A1 spectrometer facility. By measuring the monochromatic momentum from the two-body weak decay and referencing it to the decay, we determined the binding energy of with unprecedented accuracy. The obtained value, ~MeV, is consistent with the STAR result, but indicates a significantly deeper binding than inferred from earlier measurements. This result implies a stronger -deuteron interaction and provides stringent constraints on hyperon-nucleon interactions.
Cite
@article{arxiv.2601.08694,
title = {Precise measurement of the $\Lambda$-binding energy difference between $^3_\Lambda$H and $^4_\Lambda$H via decay-pion spectroscopy at MAMI},
author = {Ryoko Kino and Sho Nagao and Patrick Achenbach and Satoshi N. Nakamura and Josef Pochodzalla and Takeru Akiyama and Ralph Böhm and Mirco Christmann and Michael O. Distler and Luca Doria and Anselm Esser and Julian Geratz and Christian Helmel and Matthias Hoek and Tatsuhiro Ishige and Masashi Kaneta and Pascal Klag and David Markus and Harald Merkel and Masaya Mizuno and Ulrich Müller and Kotaro Nishi and Ken Nishida and Kazuki Okuyama and Jonas Pätschke and Björn Sören Schlimme and Concettina Sfienti and Tianhao Shao and Daniel Steger and Marcell Steinen and Liguang Tang and Michaela Thiel and Philipp Vonwirth and Luca Wilhelm},
journal= {arXiv preprint arXiv:2601.08694},
year = {2026}
}