Presentation Information

[8p-P01-13]Polarization dependence of laser transmission intensity due to birefringence and magnetically induced dichroism

〇(B)Kotaro Murakami1, Toya Matsumoto1, Shinya Matsutomo1, Kyoya Fukuda1 (1.NIT, Niihama College)

Keywords:

birefringence,magnetically induced dichroism,quantum technology teaching materials

Currently, the training and securing of quantum engineers in industry and academia is an issue, and there is a need to enhance opportunities for young people in particular to experience and learn about quantum technology. As specific measures to foster engineers, the report recommends the development of a standard curriculum for technical college and university students, as well as the creation of an educational environment for elementary, junior high, and high school students to familiarize them with quantum technology. Through optical experiments on the birefringence of calcite and magnetic field-induced dichroism in atomic vapor cells, we believe it is possible to develop teaching materials that enable students to visually and experientially learn basic phenomena of quantum technology, such as controlling the polarization of light and observing changes in the shape of atomic spectra.