56 research outputs found
Neutrino electromagnetic properties and new bounds on neutrino magnetic moments
We give a brief outline of possible neutrino electromagnetic characteristics,
which can indicate new physics beyond the Standard Model. Special emphasis is
put on recent theoretical development in searches for neutrino magnetic
moments.Comment: 4 pages, to appear in J. Phys.: Conf. Ser. (2012), based on the talk
presented at the XII International Conference on Topics in Astroparticle and
Underground Physics (TAUP 2011), Munich 5-9 September 201
An interplay between momentum distortion and electronic correlation in symmetric (e, 3−1e) reactions
Abstract A theory is proposed for the treatment of the effects of distortion in electronimpact double ionization of atoms at large momentum transfer. The eikonal wave impulse approximation and the semiclassical post-collision interaction model are used to analyse the momentum distortion in symmetric (e, 3−1e) reactions at intermediate energies. The effect of a strong interplay between electron-electron spatial correlation and momentum distortion is determined. The results of the analysis provide a guide for symmetric (e, 3−1e) experiments which are being carried out or are underway. Due to recent progress in the studies of multiple ionization by electron impact [1] it has become possible to perform coincident double ionization experiments in the regime of large momentum transfer with good accuracy. In particular, the group in Rome has carried out a symmetric (e, 3−1e) experiment on the He atom 3 . To the best of our knowledge, this is the first such study of double ionization at large momentum transfer. In this experiment the energy of the projectile electron is 580 eV, the energies of the fast final electrons are 250 eV and the energy of the slow ejected electron is fixed by the energy conservation law at about 1 eV (see The predictions by Popov et a
Testing neutrino magnetic moment in ionization of atoms by neutrino impact
The atomic ionization processes induced by scattering of neutrinos play key
roles in the experimental searches for a neutrino magnetic moment. Current
experiments with reactor (anti)neutrinos employ germanium detectors having
energy threshold comparable to typical binding energies of atomic electrons,
which fact must be taken into account in the interpretation of the data. Our
theoretical analysis shows that the so-called stepping approximation to the
neutrino-impact ionization is well applicable for the lowest bound Coulomb
states, and it becomes exact in the semiclassical limit. Numerical evidence is
presented using the Thomas-Fermi model for the germanium atom.Comment: 5 pages, 1 figur
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