Efficient THz generation by Hermite-cosh-Gaussian lasers in plasma with slanting density modulation
Terahertz (THz) has emerged as a significant field of study because to its extensive practical
applications in various domains such as medical diagnosis, remote sensing, defence, and …
applications in various domains such as medical diagnosis, remote sensing, defence, and …
Effect of different Gaussian-like laser profiles on electron energy gain in laser wakefield acceleration
Laser wakefield acceleration (LWFA) of electrons is a highly promising and advanced
technique within the field of laser plasma physics, which enables the generation of …
technique within the field of laser plasma physics, which enables the generation of …
Lasers wakefield acceleration in underdense plasma with ripple plasma density profile
The determination of the propagation parameters of a laser pulse across plasma and its
various effects heavily relies on the plasma density. Consequently, a ripple density plasma …
various effects heavily relies on the plasma density. Consequently, a ripple density plasma …
Electron acceleration in collisionless plasma: comparative analysis of laser wakefield acceleration using Gaussian and cosh-squared-Gaussian laser pulses
The properties of the wakefield and the resulting accelerated particle bunch are significantly
influenced by the pulse profile of the driving laser. The current research investigates the …
influenced by the pulse profile of the driving laser. The current research investigates the …
Resonant Terahertz radiation by p-polarised chirped laser in hot plasma with slanting density modulation
The production of terahertz (THz) radiation via the interaction between lasers and plasmas is
an intriguing and swiftly progressing domain of study within the realms of optics and plasma …
an intriguing and swiftly progressing domain of study within the realms of optics and plasma …
A comprehensive study of magnetic field-induced modifications in sin-Gaussian pulse-driven laser wakefield acceleration
The presence of an external magnetic field exerts a substantial influence on the
phenomenon commonly referred to as nonlinear laser plasma interaction. External magnetic …
phenomenon commonly referred to as nonlinear laser plasma interaction. External magnetic …
Effect of wiggler magnetic field on wakefield excitation and electron energy gain in laser wakefield acceleration
Laser wakefield acceleration is a frequently utilised research methodology for enhancing the
energy levels of lighter charged particles, specifically electrons, to relativistic magnitudes. In …
energy levels of lighter charged particles, specifically electrons, to relativistic magnitudes. In …
Exploring sin-Gaussian laser pulses for efficient electron acceleration in plasma
Abstract Laser Wakefield Acceleration (LWFA) has emerged as a groundbreaking approach
for generating ultra-high energy electron beams over short distances, revolutionizing the …
for generating ultra-high energy electron beams over short distances, revolutionizing the …
Enhanced THz generation by Hermite-cosh-Gaussian chirped laser in static magnetized plasma
The investigation of tuneable and energy-efficient terahertz (THz) generation has become a
prominent field of study due to its significant ramifications in various disciplines, including …
prominent field of study due to its significant ramifications in various disciplines, including …
Laser wakefield effect: a comparative study of Gaussian and Sinh-Gaussian pulse characteristics
The laser wakefield acceleration (LWFA) is a highly significant phenomenon within the
realm of high-energy physics and the study of interactions between lasers and plasmas. This …
realm of high-energy physics and the study of interactions between lasers and plasmas. This …