What is quantum in quantum randomness?

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Abstract

It is often said that quantum and classical randomness are of different nature, the former being ontological and the latter epistemological. However, so far the question of 'What is quantum in quantum randomness?', i.e. what is the impact of quantization and discreteness on the nature of randomness, remains to be answered. In a first part, we make explicit the differences between quantum and classical randomness within a recently proposed ontology for quantum mechanics based on contextual objectivity. In this view, quantum randomness is the result of contextuality and quantization. We show that this approach strongly impacts the purposes of quantum theory as well as its areas of application. In particular, it challenges current programmes inspired by classical reductionism, aiming at the emergence of the classical world from a large number of quantum systems. In a second part, we analyse quantum physics and thermodynamics as theories of randomness, unveiling their mutual influences. We finally consider new technological applications of quantum randomness that have opened up in the emerging field of quantum thermodynamics. This article is part of a discussion meeting issue 'Foundations of quantum mechanics and their impact on contemporary society'.

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APA

Grangier, P., & Auffèves, A. (2018). What is quantum in quantum randomness? Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 376(2123). https://doi.org/10.1098/rsta.2017.0322

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