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Mapping the self-generated magnetic fields due to thermal Weibel instability

by Wu, Yipeng , Polyanskiy, Mikhail , Lu, Wei , Vafaei-Najafabadi, Navid , Joshi, Chan , Huang, Chen-Kang , Fedurin, Mikhail , Kusche, Karl , Hua, Jianfei , Farrell, Audrey , Mori, Warren B. , Gaikwad, Apurva , Petrushina, Irina , Kupfer, Rotem , Zhang, Chaojie , Sinclair, Mitchell , Pogorelsky, Igor , Marsh, Kenneth A.

in Science & Technology - Other Topics

2022

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Mapping the self-generated magnetic fields due to thermal Weibel instability

in Science & Technology - Other Topics

2022

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Journal Article

Mapping the self-generated magnetic fields due to thermal Weibel instability

Wu, Yipeng,

Polyanskiy, Mikhail,

Lu, Wei,

Vafaei-Najafabadi, Navid,

Joshi, Chan,

Huang, Chen-Kang,

Fedurin, Mikhail,

Kusche, Karl,

Hua, Jianfei,

Farrell, Audrey,

Mori, Warren B.,

Gaikwad, Apurva,

Petrushina, Irina,

Kupfer, Rotem,

Zhang, Chaojie,

Sinclair, Mitchell,

Pogorelsky, Igor,

Marsh, Kenneth A.

2022

Overview

The origin of the seed magnetic field that is amplified by the galactic dynamo is an open question in plasma astrophysics. Aside from primordial sources and the Biermann battery mechanism, plasma instabilities have also been proposed as a possible source of seed magnetic fields. Among them, thermal Weibel instability driven by temperature anisotropy has attracted broad interests due to its ubiquity in both laboratory and astrophysical plasmas. However, this instability has been challenging to measure in a stationary terrestrial plasma because of the difficulty in preparing such a velocity distribution. Here, we use picosecond laser ionization of hydrogen gas to initialize such an electron distribution function. We record the 2D evolution of the magnetic field associated with the Weibel instability by imaging the deflections of a relativistic electron beam with a picosecond temporal duration and show that the measured k -resolved growth rates of the instability validate kinetic theory. Concurrently, self-organization of microscopic plasma currents is observed to amplify the current modulation magnitude that converts up to ~1% of the plasma thermal energy into magnetic energy, thus supporting the notion that the magnetic field induced by the Weibel instability may be able to provide a seed for the galactic dynamo.

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Publisher

National Academy of Sciences

Subject

Science & Technology - Other Topics