A fully general open quantum system description of arbitrarily complex oscillating and decaying neutrino systems is developed and shown to be implementable via Lindblad equations, Liouvillian superoperators, and Kraus operators.
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Cavity boundary conditions selectively enhance low-energy quantum decay channels by increasing infrared mode support, offering a geometric alternative to high-energy experiments.
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Visible Neutrino Decay As An Open Quantum System
A fully general open quantum system description of arbitrarily complex oscillating and decaying neutrino systems is developed and shown to be implementable via Lindblad equations, Liouvillian superoperators, and Kraus operators.
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Selective enhancement of quantum decay channels
Cavity boundary conditions selectively enhance low-energy quantum decay channels by increasing infrared mode support, offering a geometric alternative to high-energy experiments.