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Quantum Algorithms
Gauge dependence of spontaneous radiation spectrum of relativistic atomic beam under non-uniform electrostatic field
arXiv
Authors: Xue-Nan Chen, Yu-Hang Luo, Xiang-Song Chen
Year
2023
Paper ID
54903
Status
Preprint
Abstract Read
~2 min
Abstract Words
180
Citations
N/A
Abstract
Gauge theory requires physical observables to be gauge-independent. However, ever since Lamb noticed the problem of gauge selection in calculating atomic spontaneous radiation spectrum, the problem of gauge dependence was encountered in many fields of physics research. Therefore, it is important to test the self-consistency of gauge symmetry for various physical systems. In this paper, we calculate the transient spontaneous radiation spectrum of a relativistic hydrogen atom in the non-uniform electrostatic field under the atomic self-reference frame. The physical system studied in this paper is a frame-transformed version of our recent work \[\href{https://link.springer.com/paper/10.1140/epjd/s10053-022-00407-5}{Euro. J. Phys. D 76, 84(2022)}\] where the radiating object is static while the charge is moving relativistically. The obtained peak frequency can differ by about 413 KHz or larger for the commonly used Coulomb, Lorentz, and multipolar gauges. This observation can be significant not only for studying how the gauge field interacts with the quantum system in theory, but also for practical experimental applications, such as the timing accuracy of atomic clocks in the external electromagnetic field.
Why This Paper Matters
- It adds a 2023 reference point for readers tracking recent quantum research.
- Gauge theory requires physical observables to be gauge-independent.
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