Browsing by Author "Lécz, Z."
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- ItemGeneration and collective interaction of giant magnetic dipoles in laser cluster plasma([London] : Macmillan Publishers Limited, part of Springer Nature, 2021) Andreev, A.; Platonov, K.; Lécz, Z.; Hafz, N.Interaction of circularly polarized laser pulses with spherical nano-droplets generates nanometer-size magnets with lifetime on the order of hundreds of femtoseconds. Such magnetic dipoles are close enough in a cluster target and magnetic interaction takes place. We investigate such system of several magnetic dipoles and describe their rotation in the framework of Lagrangian formalism. The semi-analytical results are compared to particle-in-cell simulations, which confirm the theoretically obtained terrahertz frequency of the dipole oscillation.
- ItemGigaGauss solenoidal magnetic field inside bubbles excited in under-dense plasma([London] : Macmillan Publishers Limited, part of Springer Nature, 2016) Lécz, Z.; Konoplev, I.V.; Seryi, A.; Andreev, A.This paper proposes a novel and effective method for generating GigaGauss level, solenoidal quasi-static magnetic fields in under-dense plasma using screw-shaped high intensity laser pulses. This method produces large solenoidal fields that move with the driving laser pulse and are collinear with the accelerated electrons. This is in contrast with already known techniques which rely on interactions with over-dense or solid targets and generates radial or toroidal magnetic field localized at the stationary target. The solenoidal field is quasi-stationary in the reference frame of the laser pulse and can be used for guiding electron beams. It can also provide synchrotron radiation beam emittance cooling for laser-plasma accelerated electron and positron beams, opening up novel opportunities for designs of the light sources, free electron lasers, and high energy colliders based on laser plasma acceleration.
- ItemPlasma rotation with circularly polarized laser pulse(London : Hindawi, 2015) Lécz, Z.; Andreev, A.; Seryi, A.The efficient transfer of angular orbital momentum from circularly polarized laser pulses into ions of solid density targets is investigated with different geometries using particle-in-cell simulations. The detailed electron and ion dynamics presented focus upon the energy and momentum conversion efficiency. It is found that the momentum transfer is more efficient for spiral targets and the maximum value is obtained when the spiral step is equal to twice the laser wavelength. This study reveals that the angular momentum distribution of ions strongly depends up on the initial target shape and density.