Burst Intensification by Singularity Emitting Radiation in Laser Plasma

TL;DR

BISER is a novel laser plasma phenomenon producing bright, coherent XUV and x-ray emissions from relativistic plasma singularities, with potential for ultrashort pulse generation and applications surpassing current free electron lasers.

Contribution

This paper reviews the experimental discovery, theoretical explanation, validation, and future prospects of BISER, a new relativistic laser plasma emission mechanism.

Findings

BISER emission originates from relativistic plasma singularities.

BISER spectra have hundreds of eV bandwidth in the water window.

Predicted BISER brightness exceeds that of XUV free electron lasers.

Abstract

Burst Intensification by Singularity Emitting Radiation (BISER) appears as a bright temporally and spatially coherent Extreme Ultraviolet (XUV) and x-ray source driven by compact multi-terawatt femtosecond lasers in gas targets. There BISER originates from relativistic plasma singularities, so that the emission source size has a nanometer scale. The BISER x-ray yield quadratically depends on the driving laser power. BISER spectra have hundreds of electronvolt (eV) bandwidth embracing the 'water window' region (284 - 543 eV). Simulations predict that BISER pulses have durations close to the transform limit, which promises pulses shorter than the atomic unit of time (24 attoseconds). Based on the BISER brightness at ~20 terawatt laser power and the quadratic scaling, the brightness of BISER driven by petawatt-class lasers is predicted to exceed XUV free electron lasers. The BISER concept creates a new framework for a wide range of media emitting travelling waves capable of constructive interference, including gravitational waves. Here we review the BISER experimental discovery, its explanation based on the relativistic laser plasma simulations and catastrophe theory, experimental validation of the theoretical BISER model, proposal for imaging fast moving singularities, driving laser requirements, and future prospects emphasizing the driving laser wavelength scalability and possibility of terawatt attosecond coherent x-ray pulse generation.