The design of ultra-strong laser with one-dimensional function photonic crystal

TL;DR

This paper proposes a novel design for ultra-strong light sources and lasers using one-dimensional function photonic crystals, achieving magnifications up to 10^80 by leveraging the optical Kerr effect and analyzing various parameters affecting performance.

Contribution

It introduces a new method to create ultra-strong light sources and lasers with unprecedented magnification using function photonic crystals and detailed parameter analysis.

Findings

Maximum magnification can reach 10^80 or more.

Performance depends on period number, refractive index, thickness, incident angle, and pump light parameters.

Design guidelines for optimizing ultra-strong light sources and lasers.

Abstract

With the optical kerr effect, the conventional photonic crystal can be turned into the function photonic crystal under the action of pump light. In the paper, we have designed the ultra-strong light source and laser with one-dimensional function photonic crystal. When the incident light is the ordinary light, the output is ultra-strong light source, and when the incident light is the low power laser, the output is ultra-strong laser, the maximum magnification can be reached $10^{80}$ and even more. Otherwise, we analyzed the effect of period number, medium refractive index and thickness, incident angle, the pump light irradiation way and pump light intensity on the magnification, these results shall help to optimal design ultra-strong light source and laser.