On annihilation of the relativistic electron vortex pair in collisionless plasmas

Lezhnin, K. V.; Kamenets, F. F.; Esirkepov, Timur Zh.; Bulanov, S. V.

doi:10.1017/s0022377818001162

Cited by 7 publications

(4 citation statements)

References 33 publications

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“…An experimental study by Yabuuchi et al (2009) confirms anomalous dissipation of energy in electron current structures passing through an inhomogeneous plasma as predicted by Yadav et al (2009). With the inclusion of ion dynamics particle-in-cell studies have revealed the explosion of these structures at ion time scales (Lezhnin et al 2016).…”

Section: Introductionsupporting

confidence: 52%

“…Their dynamics has been described by several authors (Bulanov et al 1997; Das 1999) with the help of fluid simulations of EMHD and its generalizations (Yadav, Das & Kaw 2008; Yadav et al 2009; Yadav 2011). Particle-in-cell simulations studying the properties of the electron vortex current have also been carried out, even as late as in 2018 by Lezhnin et al (2018), showing the annihilation of the magnetic field in a collisionless inhomogeneous plasma. An experimental study by Yabuuchi et al (2009) confirms anomalous dissipation of energy in electron current structures passing through an inhomogeneous plasma as predicted by Yadav et al (2009).…”

Section: Introductionmentioning

confidence: 99%

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Spontaneous formation of coherent structures by an intense laser pulse interacting with overdense plasma

2020

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The formation and the dynamics of coherent magnetic field structures in the context of laser plasma interaction has attracted considerable attention. In the literature the formation of these structures has, however, mostly been reported in the wake of a laser pulse propagating in an underdense plasma medium (Bulanov et al., Phys. Rev. Lett., vol. 76, 1996, pp. 3562–3565; Nakamura & Mima Phys. Rev. Lett., vol. 100, 2008, 205006; Bulanov et al., Plasma Phys. Rep., vol. 31, no. 5, 2005, pp. 369–381; Naumova et al., Phys. Plasmas, vol. 8, no. 9, 2001, pp. 4149–4155; Nakamura et al., Phys. Rev. Lett., vol. 105, no. 13, 2010, 135002). The study here focuses on the formation of coherent structures by an intense laser pulse when it interacts with an overdense plasma medium. The laser in this case gets reflected and partially dumps its energy to the lighter electrons species. Particle-in-cell simulation studies have been carried out in two dimensions to show that the energetic electrons (generated at the critical layer and having relativistic energies), together with the background plasma electrons often self-organize to form distinct electron current vortices. These electron vortices have associated magnetic fields with monopolar or dipolar symmetries depending on the rotation profile of the electron current. The formation, stability and dynamics of these structures in the context of overdense plasma is of special importance as they provide a possibility of energy transport into those regions of plasma which are inaccessible to lasers. For such applications, higher energy content (involvement of relativistic electrons in their formation) of these structures is desirable. It is shown that their salient propagation characteristics even at relativistic energies follow the rules of electron magnetohydrodynamics (EMHD) (Isichenko & Marnachev, Sov. Phys. JETP, vol. 66, 1987, p. 702; Biskamp et al., Phys. Rev. Lett., vol. 76, 1996, p. 1264) (Generalized - EMHD Yadav et al., Phys. Plasmas, vol. 15, no. 6, 2008, 062308; Yadav et al., Phys. Plasmas, vol. 16, no. 4, 2009, 040701) for homogeneous (inhomogeneous) plasma medium, respectively.

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Section: Introductionsupporting

confidence: 52%

Section: Introductionmentioning

confidence: 99%

Spontaneous formation of coherent structures by an intense laser pulse interacting with overdense plasma

2020

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“…In the relativistic laser plasma the generated magnetic field plays an active role leading to the magnetic interaction and coalescence of the self focusing channels, their bending, and accumulating of the magnetic energy [120,121] . The magnetic field left behind the ultrashort laser pulse as well as at the vacuum plasma interface has a pattern determined by the electron vortices [122] , which can annihilate [123] resulting in the electron and ion acceleration [124,125] .…”

Section: Discussionmentioning

confidence: 99%

Magnetic field annihilation and charged particle acceleration in ultra-relativistic laser plasmas

Bulanov

2021

High Pow Laser Sci Eng

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Magnetic reconnection driven by laser plasma interactions attracts great interests in the recent decades. Motivated by the rapid development of the laser technology, the ultra strong magnetic field generated by the laser-plasma accelerated electrons provides unique environment to investigate the relativistic magnetic field annihilation and reconnection. It opens a new way for understanding relativistic regimes of fast magnetic field dissipation particularly in space plasmas, where the large scale magnetic field energy is converted to the energy of the nonthermal charged particles. Here we review the recent results in relativistic magnetic reconnection based on the laser and collisionless plasma interactions. The basic mechanism and the theoretical model are discussed. Several proposed experimental setups for relativistic reconnection research are presented.

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“…Along with the recent rapid development of intense laser technology 1,2 , such kind of structures can be generated and studied in detail in intense laser plasma interactions. Among them electron vortices formed in relativistic laser plasmas have recently aroused broad interests [3][4][5][6][7][8] due to their wide presence in nature and potential applications in the laser electron and ion acceleration [9][10][11][12][13][14][15][16][17][18][19][20][21] , as well as extremely strong magnetic field generation 22,23 . Compared with normal target sheath field in laser solid interaction, in addition to ion acceleration, the vortex field can also be used to collimate the accelerated ions 11 , and gena) minchen@sjtu.edu.cn b) Sergei.Bulanov@eli-beams.eu erate quasi-monoenergetic protons with energy of hundreds of MeV 21 .…”

Section: Introductionmentioning

confidence: 99%

Dynamics of moving electron vortices and magnetic ring in laser plasma interaction

et al. 2021

Self Cite

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Moving electron vortices have been observed in laser interaction with non-uniform near-critical-density plasma by multi-dimensional Particle-in-Cell simulations. In two dimensional geometry there are two vortices with opposite magnetic polarity, moving perpendicularly to the plasma density gradient direction. The field distribution and particle motion composing such moving structure have been clearly observed in simulations, which explains the vortex motion. Two components of loop currents are formed around each electron vortex, which dominate the vortex motion. The moving velocity can be as large as 0.2c level, forming relativistic vortices inside the plasma. Laser plasma conditions such as intensity, polarization, density profile and external magnetic field effects on the vortex motion and evolution are also studied. In three dimensions, the structure appears as an expanding magnetic ring with an internal magnetic field up to 1000 Tesla. Such vortex structures suggest an interesting way of energy (with more than 5% of the laser energy) transportation to ambient plasmas as far as 50µm away from the laser-plasma interaction region, which may have applications in laser plasma based inertial confinement fusion and laboratory astrophysics.

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On annihilation of the relativistic electron vortex pair in collisionless plasmas

Cited by 7 publications

References 33 publications

Spontaneous formation of coherent structures by an intense laser pulse interacting with overdense plasma

Spontaneous formation of coherent structures by an intense laser pulse interacting with overdense plasma

Magnetic field annihilation and charged particle acceleration in ultra-relativistic laser plasmas

Dynamics of moving electron vortices and magnetic ring in laser plasma interaction

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