Hybrid simulation of Alfvén wave parametric decay instability in a laboratory relevant plasma

Author:

Li Feiyu1ORCID,Fu Xiangrong1ORCID,Dorfman Seth23

Affiliation:

1. New Mexico Consortium, Los Alamos, New Mexico 87544, USA

2. Space Science Institute, Boulder, Colorado 80301, USA

3. University of California Los Angeles, Los Angeles, California 90095, USA

Abstract

Large-amplitude Alfvén waves are subject to parametric decays, which can have important consequences in space, astrophysical, and fusion plasmas. Although the Alfvén wave parametric decay instability (PDI) was predicted decades ago, observational evidence is limited, stimulating considerable interest in laboratory demonstration of the instability and associated numerical modeling. Here, we report an important step toward direct hybrid simulation of the Alfvén wave PDI in a laboratory plasma, using antenna-like wave injection of a circularly polarized wave and realistic wave-plasma parameters. Considering collisionless damping, we identify the threshold Alfvén wave amplitudes and frequencies required for triggering the instability. These threshold behaviors are corroborated by simple theoretical analysis, considering the balance between PDI growth and ion Landau damping and PDI development in a bounded plasma. Other effects not included in the present model such as finite transverse wave scale and ion–neutral collisions are briefly discussed. These hybrid simulations promise to be a useful tool for investigating laboratory Alfvén wave dynamics and may provide guidance for future laboratory demonstration of the PDI process.

Funder

Office of Science

Los Alamos National Laboratory

Office of Fusion Energy Sciences

NASA

Publisher

AIP Publishing

Subject

Condensed Matter Physics

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