Investigation in determining fluctuations that could demonstrate the possible presence of particles interacting with photons

Patrice Salzenstein; Mahmoud Addouche; Frédéric Lefebvre

doi:10.1117/12.3022518

20 June 2024 Investigation in determining fluctuations that could demonstrate the possible presence of particles interacting with photons

Patrice Salzenstein, Mahmoud Addouche, Frédéric Lefebvre

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Proceedings Volume 12999, Optical Sensing and Detection VIII; 129992G (2024) https://doi.org/10.1117/12.3022518
Event: SPIE Photonics Europe, 2024, Strasbourg, France

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Abstract

Here we investigate the improvement of the precision of measurement means to determine if it is possible to have sufficient sensitivity for detecting effects of elementary particles which would be characteristic of dark matter. A particle has been proposed and is called axion. There would be an interaction between the axions and the photons using the Primakoff effect under strong magnetic field. Radio frequencies in the range of 460 – 810 MHz could be assumed to be enough suitable for the mass of the axion, in case it could exist. It is then interesting to focus on the piezoaxionic effect. If the frequency of the axions could match the natural frequency of a normal mode bulk acoustic of a piezoelectric crystal, one would expect the piezoaxionic effect to occur. One could then rely on the piezoelectric effect to observe the variations on the resonant frequency which can be read out electrically using the best piezoelectric materials such as quartz. Through this example of development and applications in detection, we propose to decrypt this subject and to show how multidisciplinary skills are necessary to hope that small fluctuations can be detectable.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

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Patrice Salzenstein, Mahmoud Addouche, and Frédéric Lefebvre "Investigation in determining fluctuations that could demonstrate the possible presence of particles interacting with photons", Proc. SPIE 12999, Optical Sensing and Detection VIII, 129992G (20 June 2024); https://doi.org/10.1117/12.3022518

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KEYWORDS

Quartz

Piezoelectric materials

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