Krishna Kumar Soni scite author profile

We present a study of the effect of laser pulse temporal profile on the energy/momentum acquired by the ions as a result of the ultraintense laser pulse focussed on a thin plasma layer in the radiation pressuredominant (RPD) regime. In the RPD regime, the plasma foil is pushed by ultraintense laser pulse when the radiation cannot propagate through the foil, while the electron and ion layers move together. The nonlinear character of laser-matter interaction is exhibited in the relativistic frequency shift, and also change in the wave amplitude as the EM wave gets reflected by the relativistically moving thin dense plasma layer. Relativistic effects in a highenergy plasma provide matching conditions that make it possible to exchange very effectively ordered kinetic energy and momentum between the EM fields and the plasma. When matter moves at relativistic velocities, the efficiency of the energy transfer from the radiation to thin plasma foil is more than 30% and in ultrarelativistic case it approaches one. The momentum/energy transfer to the ions is found to depend on the temporal profile of the laser pulse. Our numerical results show that for the same laser and plasma parameters, a Lorentzian pulse can accelerate ions upto 0.2 GeV within 10 fs which is 1.5 times larger than that a Gaussian pulse can.

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Effect of Laser Pulse Profile on Energy of the Accelerated Ions in the Light Sail Regime

Jain

Soni

Jaiman

et al. 2021

IEEE Trans. Plasma Sci.

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Krishna Kumar Soni

Effect of laser pulse group velocity on ion acceleration from transversely expanded plasma foil in radiation pressure dominant regime

Effect of Laser Group Velocity on Maximum Attainable Ion Energy in the Radiation Pressure Dominant (RPD) Regime

Nonlinear interaction of ultraintense laser pulse with relativistic thin plasma foil in the radiation pressure-dominant regime

Effect of Laser Pulse Profile on Energy of the Accelerated Ions in the Light Sail Regime

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