A suggested interpretation of the quantum theory in terms of ‘hidden’ variables. II

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• Limits of Absoluteness of Observed Events in Timelike Scenarios: A No-Go Theorem quant-ph · 2025-10-30 · unverdicted · none · ref 57

  Quantum mechanics violates a causal inequality derived from absoluteness of observed events plus axiological time symmetry and no retrocausality in timelike scenarios, even under a weakened operational version of absoluteness.

• Nelson's Stochastic Mechanics: Measurement, Nonlocality, and the Classical Limit quant-ph · 2026-04-03 · unverdicted · none · ref 7

  Nelson's stochastic mechanics supplies a configuration-space diffusion picture where the Born rule is built-in, collapse is not an extra axiom, and nonlocality is softened, while proposing a distance scale to test limits of Bell correlations.

• Bohmian mechanics: A legitimate hydrodynamic picture for quantum mechanics, and beyond quant-ph · 2026-01-12 · unverdicted · none · ref 9

  Bohmian mechanics offers a legitimate hydrodynamic picture of quantum mechanics that functions as an analytical and computational tool beyond its original hidden-variable framing.

• Derivation of the Schrodinger equation from fundamental principles quant-ph · 2026-03-27 · unverdicted · none · ref 62

  The Schrödinger equation is derived assuming the wave function is a probability amplitude and using the de Broglie relations E = ħω and p = ħk for the associated wave.