Salvato in:
Dettagli Bibliografici
Autori principali: Fomin, A. A., Kozlov, G. G., Petrenko, M. V., Petrov, M. Yu., Smirnov, D. S., Zapasskii, V. S.
Natura: Preprint
Pubblicazione: 2024
Soggetti:
Accesso online:https://arxiv.org/abs/2409.05411
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866909476821401600
author Fomin, A. A.
Kozlov, G. G.
Petrenko, M. V.
Petrov, M. Yu.
Smirnov, D. S.
Zapasskii, V. S.
author_facet Fomin, A. A.
Kozlov, G. G.
Petrenko, M. V.
Petrov, M. Yu.
Smirnov, D. S.
Zapasskii, V. S.
contents For isotropic media, the magnetic field applied across the light propagation direction affects their optical properties only in the second order, and its effect proves to be much weaker than in the longitudinal field. In this work, we show that, under resonant excitation well beyond the linear regime, the situation changes drastically: A small magnetic linear anisotropy considerably increases, and an even stronger new quadrupole dichroism emerges. The latter manifests itself as the 90$^\circ$-periodic azimuthal dependence of the transmission and anisotropic rotation of the probe polarization plane. These effects are described microscopically in a toy model, and their symmetry analysis is presented. Both are observed experimentally on the D2 resonance of cesium vapor and agree with the theoretical predictions. The large magnitude of the quadrupole dichroism makes it promising for magnetometric applications and for studying the effects of anisotropic bleaching.
format Preprint
id arxiv_https___arxiv_org_abs_2409_05411
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Magnetic quadrupole dichroism in isotropic medium
Fomin, A. A.
Kozlov, G. G.
Petrenko, M. V.
Petrov, M. Yu.
Smirnov, D. S.
Zapasskii, V. S.
Optics
Atomic Physics
For isotropic media, the magnetic field applied across the light propagation direction affects their optical properties only in the second order, and its effect proves to be much weaker than in the longitudinal field. In this work, we show that, under resonant excitation well beyond the linear regime, the situation changes drastically: A small magnetic linear anisotropy considerably increases, and an even stronger new quadrupole dichroism emerges. The latter manifests itself as the 90$^\circ$-periodic azimuthal dependence of the transmission and anisotropic rotation of the probe polarization plane. These effects are described microscopically in a toy model, and their symmetry analysis is presented. Both are observed experimentally on the D2 resonance of cesium vapor and agree with the theoretical predictions. The large magnitude of the quadrupole dichroism makes it promising for magnetometric applications and for studying the effects of anisotropic bleaching.
title Magnetic quadrupole dichroism in isotropic medium
topic Optics
Atomic Physics
url https://arxiv.org/abs/2409.05411