The bound neutron β-decay(BOB) into a hydrogen atom and an electron antineutrino is investigated. The hyperfinestate population of the monoenergetic hydrogen atoms yields the neutrino left-handedness or a possible right-handed admixture and possible small scalar and tensor contributions to the weak force. The BOB H(2 s) hyperfine states are separated with a Lamb shift spin filter. The H(2 s) atoms are detected either by quenching yielding Lyman-α photons, or ionizing or charge exchanging into protons and H-, respectively. A first experiment is planned at the FRM2 high thermal neutron flux beam reactor SR6 through-going beam pipe. The neutron and ray background suppression with absorbing traps between SR6 and the experiment has been simulated using MCNP4 and GEANT4. The Lyman-α photon background produced by protons hitting the vacuum chamber wall was measured in a mockup setup.
Johannes Schön, S. Paul, R. Emmerich, R. Engels, T. Faestermann, P. Fierlinger, Mirko Gabriel, E. Gutsmied, F. J. Hartmann, R. Hertenberger, J. McAndrew, A. Röhrmoser, S. Ruschel, W. Schott, Ulrich Sigmar Schubert, Andreas Trautner, Th. Udem, A. Ulrich
Thomas Schulz, K. Meindl, D. Leusser, Daniel Stern, Jürgen Graf, Carsten Michaelsen, Michael Ruf, In Memory: G.M. Sheldrick (1942–2025), Dietmar Stalke
Discussion(0)
No comments yet. Be the first to comment.