Hybrid Vlasov-Fokker-Planck code for fast simulations of relativistic electron beam transport in a denser solid or plasma.

Laser plasma acceleration is a potentially disruptive technology: It could be used to build far more compact accelerators and open up new use cases in fundamental research, industry and health.

DESY's new flagship laser, KALDERA, has now made a decisive step forward: Driving the compact plasma accelerator MAGMA, the innovative laser has been shown to accelerate 100 particle bunches per ...

using unpolarized electrons with the aid of vacuum dichroism effects. A laser-plasma electron beam generated using active energy compression demonstrates reduction in energy spread and jitter by ...

Technological Advancements in Laser and Plasma Interactions This experiment’s success was made possible by advanced technology. Standard lasers typically struggle to penetrate plasma beyond a ...

To overcome these limitations, scientists have been working on laser plasma acceleration, an exciting technology that can result in the development of smaller, cheaper, and more accessible ...

Laser-Plasma interaction, Industrial Plasma, Fusion Plasma, Tokamaks and Radio frequency Discharges and Applications etc. Eligibility: Applicant should have M.Sc. or should be expecting an M.

Direct Drive (DD) inertial fusion energy (IFE) schemes directly illuminate a fusion fuel pellet with laser light. They present a compelling approach to energy generation given their relative ...

Magnetic fields and radiative processes are ignored in the model. We study the influence of heat conduction within the plasma on the interaction between a cloud and the plasma. We consider the extreme ...

Intense laser pulse focused on a solid target drives inhomogeneous plasma dynamics, affecting the spatio-temporal profile of the reflected light. Capturing these changes in spatio-temporal profiles ...