# Quantitative Measurements of Giant and Quantized Microwave Faraday   Rotation

**Authors:** Vishnunarayanan Suresh, Edouard Pinsolle, Christian Lupien, Talia J., Martz-Oberlander, Michael P. Lilly, John L. Reno, Guillaume Gervais, Thomas, Szkopek, and Bertrand Reulet

arXiv: 1906.11230 · 2020-08-12

## TL;DR

This paper presents quantitative measurements of microwave Faraday rotation in a high-mobility 2DEG, revealing giant classical and quantized effects, with the quantum rotation exceeding the fine structure constant due to waveguide confinement.

## Contribution

It reports the first quantitative observation of giant and quantized microwave Faraday rotation in a 2DEG, highlighting the enhancement from electromagnetic confinement.

## Key findings

- Giant Faraday rotation of approximately 45 degrees achieved at 100 mT.
- Faraday rotation is quantized in units of approximately 2.80 times the fine structure constant.
- Quantum Faraday rotation exceeds the fine structure constant due to waveguide electromagnetic confinement.

## Abstract

We report {\it quantitative} microwave Faraday rotation measurements conducted with a high-mobility two-dimensional electron gas (2DEG) in a GaAs/AlGaAs semiconductor heterostructure. In a magnetic field, the Hall effect and the Faraday effect arise from the action of Lorentz force on electrons in the 2DEG. As with the Hall effect, a classical Faraday effect is observed at low magnetic field as well as a quantized Faraday effect at high magnetic field. The high electron mobility of the 2DEG enables a giant single-pass Faraday rotation of $\theta_F^{max} \simeq 45^\circ$ $(\simeq0.8$~rad) to be achieved at a modest magnetic field of $B \simeq 100$~mT. In the quantum regime, we find that the Faraday rotation $\theta_F$ is quantized in units of $\alpha^*= 2.80(4)\alpha$, where $\alpha\simeq 1/137$ is the fine structure constant. The enhancement in rotation quantum $\alpha^* > \alpha$ is attributed to electromagnetic confinement within a waveguide structure.

## Full text

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## Figures

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## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1906.11230/full.md

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Source: https://tomesphere.com/paper/1906.11230