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PRODID:UW-Madison-Physics-Events
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SEQUENCE:4
UID:UW-Physics-Event-4744
DTSTART:20180220T213000Z
DURATION:PT1H0M0S
DTSTAMP:20260314T090359Z
LAST-MODIFIED:20180214T164817Z
LOCATION:4274 Chamberlin Hall
SUMMARY:The neutrino quantum system and DUNE\, NPAC (Nuclear/Particle/
 Astro/Cosmo) Forum\, Jonathan Miller\, Fermilab
DESCRIPTION:With the completion of Deep Underground Neutrino Experimen
 t (DUNE) in the next decade\, the continuation of this exciting era in
  neutrino physics is assured. Deep underground\, based on Liquid Argon
  Time Projection Chamber (LArTPC) technology\, with a total fiducial m
 ass of 40-kton and utilizing the high-intensity neutrino beam produced
  at the Long Baseline Neutrino Facility (LBNF) at Fermilab\, the DUNE 
 program is rich and diverse. The center of this program is the measure
 ment of the charge-parity violating phase (δCP)\, a free parameter in
  the PMNS matrix\, which describes the relationship between neutrino p
 ropagating eigenstates and interaction eigenstates. This parameter can
  be measured by a sensitive measurement of neutrino interference and m
 ay be the primary source of the matter-antimatter asymmetry in the uni
 verse. DUNE is also sensitive to the neutrino ensemble from core-colla
 pse supernovae\, providing a unique tool to study astrophysical phenom
 ena. In both situations\, the neutrino source (supernova or LBNF)\, pr
 opagation and detection (LArTPC in DUNE) define a quantum system. Unde
 rstanding and simulating this phenomenologically rich quantum system i
 s important to the success of the DUNE program and opens up additional
  avenues of investigation.
URL:https://www.physics.wisc.edu/events/?id=4744
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