Wobbly time theory offers new path to unify gravity and quantum mechanics

Physicist Jonathan Oppenheim has proposed a theory of post-quantum gravity that treats space-time as fundamentally non-quantum. The idea introduces random fluctuations in the flow of time that could connect general relativity with quantum mechanics.

Oppenheim, based at University College London, argues that gravity and space-time do not need to be broken into quanta like the other fundamental forces. Instead, space-time remains continuous, and its interaction with quantum systems produces unpredictable wobbles in time on very small scales.

These fluctuations emerge directly from the mathematics of the theory. When included in quantum calculations, they reproduce observed behaviors such as the apparent collapse of a quantum state upon measurement.

Testing the idea requires measuring tiny variations in gravitational strength between objects. Prototype experiments are under construction, though researchers estimate it could take decades to reach the needed precision.

Oppenheim acknowledges the theory remains controversial, noting that few colleagues currently view it as more likely than competing approaches. Several physicists nevertheless support carrying out the proposed tests because they can be performed in the laboratory.

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An international team of physicists has found that quantum collapse models, potentially linked to gravity, introduce a minuscule uncertainty in time itself. This sets a fundamental limit on clock precision, though far below current detection levels. The research, published in Physical Review Research, explores ties between quantum mechanics and gravity.

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French physicists James Hefford and Matt Wilson have proposed a mathematical model called QBox, outlining a post-quantum layer of reality that could bridge quantum theory and gravity. The theory introduces 'hyperdecoherence,' allowing quantum mechanics to emerge from a deeper realm with indefinite causality. Experts praise the work as a promising step toward quantum gravity.

Researchers propose that ancient gravitational waves in the early universe produced particles that became dark matter. The study by scientists from Johannes Gutenberg University Mainz and Swansea University suggests a new mechanism involving stochastic gravitational waves converting into fermions. Published in Physical Review Letters, the work addresses a key mystery in cosmology.

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Scientists at California Polytechnic State University have discovered new forms of quantum matter by varying magnetic fields over time. The breakthrough, detailed in Physical Review B, shows that time-dependent control can produce stable quantum states without static equivalents. This could advance quantum computing by making systems more resistant to errors.

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