The Decoherent Arrow of Time and the Entanglement Past Hypothesis

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Foundations of Physics 54 (49) (2024)
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Abstract

If an asymmetry in time does not arise from the fundamental dynamical laws of physics, it may be found in special boundary conditions. The argument normally goes that since thermodynamic entropy in the past is lower than in the future according to the Second Law of Thermodynamics, then tracing this back to the time around the Big Bang means the universe must have started off in a state of very low thermodynamic entropy: the Thermodynamic Past Hypothesis. In this paper, we consider another boundary condition that plays a similar role, but for the decoherent arrow of time, i.e. the subsystems of the universe are more mixed in the future than in the past. According to what we call the Entanglement Past Hypothesis, the initial quantum state of the universe had very low entanglement entropy. We clarify the content of the Entanglement Past Hypothesis, compare it with the Thermodynamic Past Hypothesis, and identify some challenges and open questions for future research.

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10.1007/s10701-024-00785-3

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Eddy Keming Chen
University of California, San Diego

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References found in this work

Time and Chance.David Z. Albert - 2000 - Cambridge, Mass.: Harvard University Press.
Quantum Mechanics in a Time-Asymmetric Universe: On the Nature of the Initial Quantum State.Eddy Keming Chen - 2021 - British Journal for the Philosophy of Science 72 (4):1155–1183.
The Past Hypothesis and the Nature of Physical Laws.Eddy Keming Chen - 2023 - In Barry Loewer, Brad Weslake & Eric B. Winsberg, The Probability Map of the Universe: Essays on David Albert’s _Time and Chance_. Cambridge MA: Harvard University Press. pp. 204-248.
On the interpretation of measurement in quantum theory.H. D. Zeh - 1970 - Foundations of Physics 1 (1):69-76.
Gravity, Entropy, and Cosmology: in Search of Clarity.David Wallace - 2010 - British Journal for the Philosophy of Science 61 (3):513-540.

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