Quantum Test of the Local Position Invariance with Internal Clock Interferometry

Abstract: Current attempts to test local position invariance (LPI) compare different clock transition rates with classically exchanged signals. We propose an experimental scheme for the quantum test of LPI: an internal atomic clock interferometer comprising two interfering clocks within one atom.We prepare the atom in a superposition of two clock states and one ground state, which evolves coherently along two quantum clock oscillations into stable internal Ramsey interference patterns.The interference pattern with the s… Show more

“…Currently, there are relatively few experiments in this field, but it is potentially worthwhile to find possible evidence of the influence of entanglement in gravity. Also, further validation of LPI and LLI can be achieved using cold atoms, and some proposals and experiments have been proposed [218][219][220][221][222][223][224]. We believe future stringent tests of the WEP will open new doors to physics, such as modifying the GR theory, establishing a quantum gravity theory and searching for new forces or matter.…”

Current Status and Prospects on High-Precision Quantum Tests of the Weak Equivalence Principle with Cold Atom Interferometry

“…Currently, there are relatively few experiments in this field, but it is potentially worthwhile to find possible evidence of the influence of entanglement in gravity. Also, further validation of LPI and LLI can be achieved using cold atoms, and some proposals and experiments have been proposed [218][219][220][221][222][223][224]. We believe future stringent tests of the WEP will open new doors to physics, such as modifying the GR theory, establishing a quantum gravity theory and searching for new forces or matter.…”

Current Status and Prospects on High-Precision Quantum Tests of the Weak Equivalence Principle with Cold Atom Interferometry