Quasioptical modeling of wave beams with and without mode conversion. IV. Numerical simulations of waves in dissipative media

K. Yanagihara; I. Y. Dodin; S. Kubo

doi:10.1063/5.0057345

Quasioptical modeling of wave beams with and without mode conversion. IV. Numerical simulations of waves in dissipative media

K. Yanagihara
, I. Y. Dodin
, S. Kubo

PPPL Theory

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We report the first quasi-optical simulations of wave beams in a hot plasma using the quasi-optical code PARADE (PAraxial RAy DEscription) [K. Yanagihara, I. Y. Dodin, and S. Kubo, Phys. Plasmas 26, 072112 (2019)]. This code is unique in that it accounts for inhomogeneity of the dissipation-rate across the beam and mode conversion simultaneously. We show that the dissipation-rate inhomogeneity shifts beams relative to their trajectories in cold plasma and that the two electromagnetic modes are coupled via this process, an effect that was ignored in the past. We also propose a simplified approach to account for the dissipation-rate inhomogeneity. This approach is computationally inexpensive and simplifies the analysis of actual experiments.

Original language	English (US)
Article number	122102
Journal	Physics of Plasmas
Volume	28
Issue number	12
DOIs	https://doi.org/10.1063/5.0057345
State	Published - Dec 1 2021

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/5.0057345

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title = "Quasioptical modeling of wave beams with and without mode conversion. IV. Numerical simulations of waves in dissipative media",

abstract = "We report the first quasi-optical simulations of wave beams in a hot plasma using the quasi-optical code PARADE (PAraxial RAy DEscription) [K. Yanagihara, I. Y. Dodin, and S. Kubo, Phys. Plasmas 26, 072112 (2019)]. This code is unique in that it accounts for inhomogeneity of the dissipation-rate across the beam and mode conversion simultaneously. We show that the dissipation-rate inhomogeneity shifts beams relative to their trajectories in cold plasma and that the two electromagnetic modes are coupled via this process, an effect that was ignored in the past. We also propose a simplified approach to account for the dissipation-rate inhomogeneity. This approach is computationally inexpensive and simplifies the analysis of actual experiments.",

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T1 - Quasioptical modeling of wave beams with and without mode conversion. IV. Numerical simulations of waves in dissipative media

AU - Yanagihara, K.

AU - Dodin, I. Y.

AU - Kubo, S.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - We report the first quasi-optical simulations of wave beams in a hot plasma using the quasi-optical code PARADE (PAraxial RAy DEscription) [K. Yanagihara, I. Y. Dodin, and S. Kubo, Phys. Plasmas 26, 072112 (2019)]. This code is unique in that it accounts for inhomogeneity of the dissipation-rate across the beam and mode conversion simultaneously. We show that the dissipation-rate inhomogeneity shifts beams relative to their trajectories in cold plasma and that the two electromagnetic modes are coupled via this process, an effect that was ignored in the past. We also propose a simplified approach to account for the dissipation-rate inhomogeneity. This approach is computationally inexpensive and simplifies the analysis of actual experiments.

AB - We report the first quasi-optical simulations of wave beams in a hot plasma using the quasi-optical code PARADE (PAraxial RAy DEscription) [K. Yanagihara, I. Y. Dodin, and S. Kubo, Phys. Plasmas 26, 072112 (2019)]. This code is unique in that it accounts for inhomogeneity of the dissipation-rate across the beam and mode conversion simultaneously. We show that the dissipation-rate inhomogeneity shifts beams relative to their trajectories in cold plasma and that the two electromagnetic modes are coupled via this process, an effect that was ignored in the past. We also propose a simplified approach to account for the dissipation-rate inhomogeneity. This approach is computationally inexpensive and simplifies the analysis of actual experiments.

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IS - 12

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ER -

Quasioptical modeling of wave beams with and without mode conversion. IV. Numerical simulations of waves in dissipative media

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