English

Complex interferometry of magnetized plasma: accuracy and limitations

Plasma Physics 2021-11-03 v1 Data Analysis, Statistics and Probability Instrumentation and Detectors Optics

Abstract

Expanding laser plasmas, produced by high energy laser radiation, possess both high thermal and magnetic field energy density. Characterization of such plasma is challenging but needed for understanding of its physical behaviour. Among all standard experimental techniques for plasma diagnostics, classical interferometry is one of the most convenient, informative and accurate. Attempts to extract more information from each single laser shot have led to development of complex interferometry, which under certain processing allows to reconstruct both plasma electron density and magnetic field strength distributions using just one data object. However, the increase in complexity and universality of the diagnostics requires a more detailed analysis of the extracted values and their accuracy.This work focuses on axisymmetric interaction geometry. We present general analysis, starting from the basic principles and trace main error sources, finally ending up with plasma density and magnetic field distributions with the derived error bars. Use of synthetic profiles makes the analysis universal, though we present an example with real experimental data in the Appendix.

Keywords

Cite

@article{arxiv.2103.01076,
  title  = {Complex interferometry of magnetized plasma: accuracy and limitations},
  author = {Iu. Kochetkov and T. Pisarczyk and M. Kalal and T. Chodukowski and A. Zaras-Szydlowska and Z. Rusiniak and R. Dudzak and J. Dostal and M. Krupka and Ph. Korneev},
  journal= {arXiv preprint arXiv:2103.01076},
  year   = {2021}
}

Comments

24 pages, 28 figures

R2 v1 2026-06-23T23:37:20.307Z