Entangled Simultaneity: Testing Lorentz and Light Speed Invariance with Quantum and Classical Entanglement
In a rigid rod of length AB = L , rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the quantum entanglement of the spin of particles. This "classical entanglement" can be used for syncing two distant clocks, one at A and...
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| Published in | International journal of theoretical physics Vol. 64; no. 3; p. 78 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
13.03.2025
Springer Nature B.V |
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| Online Access | Get full text |
| ISSN | 1572-9575 0020-7748 1572-9575 |
| DOI | 10.1007/s10773-025-05932-8 |
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| Abstract | In a rigid rod of length AB
=
L
, rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the quantum entanglement of the spin of particles. This "classical entanglement" can be used for syncing two distant clocks, one at A and the other at B. Since it differs from Einstein synchronization, this procedure can be adopted for testing the one-way light speed and Lorentz invariance. Applications to optical Sagnac effects confirm that a consistent interpretation requires the adoption of absolute versus relative simultaneity. |
|---|---|
| AbstractList | In a rigid rod of length AB =L, rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the quantum entanglement of the spin of particles. This "classical entanglement" can be used for syncing two distant clocks, one at A and the other at B. Since it differs from Einstein synchronization, this procedure can be adopted for testing the one-way light speed and Lorentz invariance. Applications to optical Sagnac effects confirm that a consistent interpretation requires the adoption of absolute versus relative simultaneity. In a rigid rod of length AB = L , rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the quantum entanglement of the spin of particles. This "classical entanglement" can be used for syncing two distant clocks, one at A and the other at B. Since it differs from Einstein synchronization, this procedure can be adopted for testing the one-way light speed and Lorentz invariance. Applications to optical Sagnac effects confirm that a consistent interpretation requires the adoption of absolute versus relative simultaneity. |
| ArticleNumber | 78 |
| Author | Spavieri, Gianfranco Durán, Kevin Carrasquero, Ramón Flores, Andrés Contreras, Antonio Mendoza, Juan Carlos |
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| Keywords | Clock synchronization 03.30.+p 42.25.Bs Quantum entanglement Foundations of relativity theory 45.50.-j One-way speed of light Lorentz invariance Relative simultaneity |
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=
L
, rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the... In a rigid rod of length AB =L, rotating uniformly, any two spatially separated points along the rod are connected in a way that shows analogies with the... |
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| SubjectTerms | Charged particles Clocks Clocks & watches Coordinate transformations Elementary Particles Expected values Global positioning systems GPS Invariance Light Light speed Mathematical and Computational Physics Particle spin Physics Physics and Astronomy Quantum entanglement Quantum Field Theory Quantum Physics Synchronism Theoretical Theory of relativity |
| Title | Entangled Simultaneity: Testing Lorentz and Light Speed Invariance with Quantum and Classical Entanglement |
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