# Thomson microwave scattering for electron number density diagnostics of   miniature plasmas at low pressure

**Authors:** Xingxing Wang, Apoorv Ranjan, Animesh Sharma, Mikhail N. Shneider,, Alexey Shashurin

arXiv: 1905.06430 · 2019-05-20

## TL;DR

This paper introduces a new Thomson microwave scattering technique for measuring electron density in miniature low-pressure plasmas, validated against traditional methods, enabling accurate diagnostics in small plasma systems.

## Contribution

A novel Thomson microwave scattering method for electron density diagnostics in miniature plasmas at low pressures, validated against established techniques.

## Key findings

- Thomson microwave scattering measured electron density as 3.36×10^10 cm^-3.
- Hairpin resonator measured electron density as 2.07×10^10 cm^-3.
- Results show adequate agreement between the two measurement methods.

## Abstract

This work proposes a novel method of Thomson microwave scattering for electron number density measurements of miniature plasmas at pressures < 10 Torr. This method is applied to determine electron number density in a positive column of glow discharge initiated at 5 Torr in air with a plasma column diameter of 3.4 mm. The Thomson Microwave Scattering(TMS) system measured the electron number density to be 3.36*10^10 cm^-3. The result obtained using the TMS system was validated against the measurements made using the well-known technique of microwave quarter-wave hairpin resonator. Measurements with the hairpin resonator yielded an electron number density of 2.07*10^10 cm^-3 providing adequate agreement with the TMS system.

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Source: https://tomesphere.com/paper/1905.06430