Magnetic dipole transitions dominate electric ones for circular Unruh detection in atoms, with a multilevel scheme to suppress emission and enable measurement in free space or cavities.
Quantization of electromagnetic fields in a circular cylindrical cavity
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abstract
We present a quantization procedure for the electromagnetic field in a circular cylindrical cavity with perfectly conducting walls, which is based on the decomposition of the field. A new decomposition procedure is proposed; all vector mode functions satisfying the boundary conditions are obtained with the help of this decomposition. After expanding the quantized field in terms of the vector mode functions, it is possible to derive the Hamiltonian for this quantized system.
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quant-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Signatures of the circular Unruh effect in electric and magnetic dipole transitions of multilevel atoms
Magnetic dipole transitions dominate electric ones for circular Unruh detection in atoms, with a multilevel scheme to suppress emission and enable measurement in free space or cavities.