International Research Excellence Awards-Book of Award
The Migdal effect in phonon-mediated neutrino-nucleus scattering is a phenomenon relevant to semiconductor detectors used in neutrino detection. When a neutrino interacts with a nucleus in a semiconductor, it can cause the nucleus to recoil. This recoil can result in the excitation of electrons or holes, a process known as the Migdal effect. Phonons, or quantum vibrations of the crystal lattice, play a key role in this interaction by mediating the energy transfer between the recoiling nucleus and the electrons. Understanding this effect is crucial for improving the sensitivity of semiconductor detectors in detecting low-energy neutrinos.
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