Time-like detonation in presence of magnetic field

TL;DR

This paper investigates how a sinusoidal magnetic field influences the transition from space-like to time-like detonation during radiation-driven implosions, impacting the volume and timing of the process with implications for high-energy physics and fusion.

Contribution

It introduces the effect of oscillating magnetic fields on detonation transitions in implosion processes, a novel aspect not previously explored.

Findings

Magnetic field increases the volume of time-like detonation.

Magnetic field modifies the timing of the implosion process.

Transition between detonation types is significantly affected by magnetic oscillations.

Abstract

We study the effect of magnetic field in an implosion process achieved by radiation. A time-varying sinusoidal magnetic field is seen to affect the continuous transition of space-like detonation to time-like detonation at the core of implosion region. The oscillating varying magnetic field has a significant effect in increasing the volume of the time-like detonation of the core of implosion and also modify the time of the implosion process. This transition can have significant outcome both theoretically and experimentally in the areas of high energy hadronization of quark-gluon plasma (QGP) matter and Inertial Confinement Fusion efforts of fuels.