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arxiv: 2412.02686 · v1 · pith:XGDR6XGS · submitted 2024-12-03 · quant-ph · physics.atom-ph

Electron Beam Characterization via Quantum Coherent Optical Magnetometry

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classification quant-ph physics.atom-ph
keywords beamelectronquantumatomscharacterizationcurrente-beamfield
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We present a quantum optics-based detection method for determining the position and current of an electron beam. As electrons pass through a dilute vapor of rubidium atoms, their magnetic field perturb the atomic spin's quantum state and causes polarization rotation of a laser resonant with an optical transition of the atoms. By measuring the polarization rotation angle across the laser beam, we recreate a 2D projection of the magnetic field and use it to determine the e-beam position, size and total current. We tested this method for an e-beam with currents ranging from 30 to 110 {\mu}A. Our approach is insensitive to electron kinetic energy, and we confirmed that experimentally between 10 to 20 keV. This technique offers a unique platform for non-invasive characterization of charged particle beams used in accelerators for particle and nuclear physics research.

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