HIGHLIGHTS
SUMMARY
Of course, this irreversible process is in sharp contrast with the deterministic unitary evolution of quantum mechanics (QM) governed by the Schrödinger equation, which means that intrinsic decoherence is involved in the so-called measurement problem in QM, as well as in the related issue of the emergence of classicality from the quantum world. The idea of a gravitational decoherence in particular is attractive, since gravity is ubiquitous in nature and gravitational effects depend on the size of objects. An alternative route to decoherence proposes that it descends from time dilation in an . . .
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