Abstract

This review describes and categorizes the synthesis and properties of low density porous materials, which are commonly referred to as foams and are utilized for laser plasma experiments. By focusing a high-power laser on a small target composed of these materials, high energy and density states can be produced. In the past decade or so, various new target fabrication techniques have been developed by many laboratories that use high energy lasers and consequently, many publications and reviews followed these developments. However, the emphasis so far has been on targets that did not utilize low density porous materials. This review therefore, attempts to redress this balance and endeavors to review low density materials used in laser plasma experiments in recent years. The emphasis of this review will be on aspects of low density materials that are of relevance to high energy laser plasma experiments. Aspects of low density materials such as densities, elemental compositions, macroscopic structures, nanostructures, and characterization of these materials will be covered. Also, there will be a brief mention of how these aspects affect the results in laser plasma experiments and the constrictions that these requirements put on the fabrication of low density materials relevant to this field. This review is written from the chemists' point of view to aid physicists and the new comers to this field.

Highlights

  • All low-density materials mentioned in this paper are porous with high surface areas

  • Hollow spherical geometry shells are the requirements for a number of laser experiments, experiments involving plasma physics research relating to Inertial Confinement Fusion (ICF)

  • This review paper is focused on low density porous materials used for laser experiments and their properties relating to synthetic techniques, from the point of view of a material chemist synthesizing these materials

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Summary

INTRODUCTION

All low-density materials mentioned in this paper are porous with high surface areas. The definition of foam is air bubbles dispersed in a solid or liquid medium It is used in this paper for ease of reading, foam is an oversimplified definition of low-density porous materials, which takes no account of the pore size, its distribution or whether it is an open or closed cell structure. It is a very general term and could apply to liquid foams as well. Aerogels Organic aerogels (RF) Inorganic aerogels Carbonized aerogels PolyHIPE Acrylates and Methacrylates Templated foams Electrospinning Poly(3-methyl-1-pentene) nm nm nm lm lm nm-lm nm nm-lm

C CH CHO Metal oxides Metal oxides CH2
DESIGN CRITERIA AND MATERIAL SELECTION FOR LOW-DENSITY TARGETS
Polyacrylate
Polysaccharides
Metal oxide and metal halide
Simple substance solid
Doping
General description
Molding porous materials into target shapes using chemical methods
Shell structure of low density materials
Mass production of the low density film
Control of the macroscopic shape
Membrane on the porous material
Template processes to control micro and nanostructures
CHARACTERIZATION
Findings
SUMMARY

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