Magnetic field annihilation and reconnection driven by femtosecond lasers in inhomogeneous plasma

Research output: Research - peer-reviewArticle

The process of fast magnetic reconnection driven by intense ultra-short laser pulses in underdense plasma is investigated by particle-in-cell simulations. In the wakefield of such laser pulses, quasi-static magnetic fields at a few mega-Gauss are generated due to nonvanishing cross product ∆(n /γ) × p. Excited in an inhomogeneous plasma of decreasing density, the quasi-static magnetic field structure is shown to drift quickly both in lateral and longitudinal directions. When two parallel-propagating laser pulses with close focal spot separation are used, such field drifts can develop into magnetic reconnection (annihilation) in their overlapping region, resulting in the conversion of magnetic energy to kinetic energy of particles. The reconnection rate is found to be much higher than the value obtained in the Hall magnetic reconnection model. Our work proposes a potential way to study magnetic reconnection-related physics with short-pulse lasers of terawatt peak power only.

Original languageEnglish
Article number115211
Number of pages14
JournalScience China: Physics, Mechanics and Astronomy
Issue number11
Early online date18 Aug 2017
StatePublished - 1 Nov 2017

    Research areas

  • laser wakefield, magnetic field generation, magnetic reconnection

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