Limits of Absoluteness of Observed Events in Timelike Scenarios: A No-Go Theorem
- URL: http://arxiv.org/abs/2510.26562v1
- Date: Thu, 30 Oct 2025 14:52:07 GMT
- Title: Limits of Absoluteness of Observed Events in Timelike Scenarios: A No-Go Theorem
- Authors: Sumit Mukherjee, Jonte R. Hance,
- Abstract summary: Wigner's Friend-type paradoxes challenge the assumption that events are absolute.<n>We introduce the Causal Friendliness Paradox, a time-ordered analogue of it.
- Score: 0.9023847175654603
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Wigner's Friend-type paradoxes challenge the assumption that events are absolute- that when we measure a system, we obtain a single result, which is not relative to anything or anyone else. These paradoxes highlight the tension between quantum theory and our intuitions about reality being observer-independent. Building on a recent result that developed these paradoxes into a no-go theorem, namely the Local Friendliness Theorem, we introduce the Causal Friendliness Paradox, a time-ordered analogue of it. In this framework, we replace the usual locality assumption with Axiological Time Symmetry (ATS), and show that, when combined with the assumptions of Absoluteness of Observed Events (AOE), No Retrocausality (NRC), and Screening via Pseudo Events (SPE), we obtain a causal inequality. We then show that quantum mechanics violates this inequality and is therefore incompatible with at least one of these assumptions. To probe which assumption might be incompatible, we then examine whether AOE in its entirety is essential for this no-go result. We propose a weaker, operational form of AOE that still leads to inequalities that quantum mechanics violates. This result shows that even under relaxed assumptions, quantum theory resists reconciliation with classical notions of absolute events, reinforcing the foundational significance of Wigner's Friend-type paradoxes in timelike scenarios.
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