Unpacking Black Hole Complementarity

British Journal for the Philosophy of Science (forthcoming)
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Abstract

To what extent does the black hole information paradox lead to violations of quantum mechanics? I explain how black hole complementarity provides a framework to articulate how quantum characterizations of black holes can remain consistent despite the information paradox. I point out that there are two ways to cash out the notion of consistency in play here: an operational notion and a descriptive notion. These two ways of thinking about consistency lead to (at least) two principles of black hole complementarity: an operational principle and a descriptive principle. Our background philosophy of science regarding realism/instrumentalism might initially lead us to prefer one principle over the other. However, the recent physics literature, which applies tools from quantum information theory and quantum computational complexity theory to various thought experiments involving quantum systems in or around black holes, implies that the operational principle is successful where the descriptive principle is not. This then lets us see that for operationalists the black hole information paradox might no longer be pressing.

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10.1086/728047

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Siddharth Muthukrishnan
University of Pittsburgh

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References found in this work

The Scientific Image.William Demopoulos & Bas C. van Fraassen - 1982 - Philosophical Review 91 (4):603.
The case for black hole thermodynamics part I: Phenomenological thermodynamics.David Wallace - 2018 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 64:52-67.
The case for black hole thermodynamics part II: Statistical mechanics.David Wallace - 2018 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 66 (C):103-117.
Quantum gravity at low energies.David Wallace - 2022 - Studies in History and Philosophy of Science Part A 94 (C):31-46.

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