CPT Violation in String-Modified Quantum Mechanics and the Neutral Kaon System
Abstract
We show that CPT is in general violated in a non-quantum-mechanical way in the effective low-energy theory derived from string theory, as a result of apparent world-sheet charge non-conservation induced by stringy monopoles corresponding to target-space black hole configurations. This modification of quantum mechanics does not violate energy conservation. The magnitude of this effective spontaneous violation of CPT may not be be far from the present experimental sensitivity in the neutral kaon system. We demonstrate that our previously proposed stringy modifications to the quantum-mechanical description of the neutral kaon system violate CPT, although in a different way from that assumed in phenomenological analyses within conventional quantum mechanics. We constrain the novel CPT-violating parameters using available data on KL → 2π, KS → 3π 0 and semileptonic KL,S decay asymmetries. We demonstrate that these data and an approximate treatment of interference effects in K → 2π decays are consistent with a non-vanishing amount of CPT violation at a level accessible to a new round of experiments, and further data and/or analysis are required to exclude the extreme possibility that they dominate over CP violation. Could non-quantum-field theoretical and non-quantum-mechanical CPT violation usher in the long-awaited era of string phenomenology?
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