Measuring time in a timeless universe

• URL: http://arxiv.org/abs/2406.14642v3
• Date: Thu, 24 Jul 2025 14:12:40 GMT
• Title: Measuring time in a timeless universe
• Authors: Sam Kuypers, Simone Rijavec,
• Abstract summary: Physical systems are usually assumed to evolve relative to an external time parameter, which is problematic in quantum theory.<n>Page & Wootters (1984) solved this by proposing that the universe is in a stationary state, eliminating the need for the external time parameter.<n>We prove that the clock can be measured while preserving the core features of the Page-Wootters construction.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Physical systems are usually assumed to evolve relative to an external time parameter, which is problematic because in quantum theory that parameter is not a physical observable. Page & Wootters (1984) solved this by proposing that the universe is in a stationary state, eliminating the need for the external time parameter. Instead, their model contains an isolated subsystem, a 'clock', with which other subsystems are entangled, making the latter appear to evolve relative to different states of the clock. While this resolves the problem of the time parameter, the assumption that the clock is isolated prevents it from being measured, as this requires an interaction with another system. We prove that the clock can be measured while preserving the core features of the Page-Wootters construction. We also discuss clock synchronisation.

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