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Investigations of Field Dynamics in Laser Plasmas with Proton Imaging

  • Book
  • © 2011

Overview

Authors:
  1. Thomas Sokollik

    1. Lawrence Berkeley National Lab., Berkeley, USA

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  • Develops and applies a novel imaging technique: The proton streak camera - Contributes to improvement of laser-driven particle acceleration - Nominated as an outstanding contribution by the Max Born Institute, Berlin
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-xiii
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  2. Introduction

    • Thomas Sokollik
    Pages 1-4

  3. Basics

    1. Front Matter

      Pages 5-5
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    2. Ultra Short and Intense Laser Pulses

      • Thomas Sokollik
      Pages 7-15

    3. Plasma Physics

      • Thomas Sokollik
      Pages 17-24

    4. Ion Acceleration

      • Thomas Sokollik
      Pages 25-36

    5. Laser System

      • Thomas Sokollik
      Pages 37-44

  4. Proton Beam Characterization

    1. Front Matter

      Pages 45-45
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    2. Proton and Ion Spectra

      • Thomas Sokollik
      Pages 47-53

    3. Beam Emittance

      • Thomas Sokollik
      Pages 55-59

    4. Virtual Source Dynamics

      • Thomas Sokollik
      Pages 61-68

  5. Proton Imaging

    1. Front Matter

      Pages 69-69
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    2. Principle of Proton Imaging

      • Thomas Sokollik
      Pages 71-76

    3. Imaging Plasmas of Irradiated Foils

      • Thomas Sokollik
      Pages 77-82

    4. Mass-Limited Targets

      • Thomas Sokollik
      Pages 83-95

    5. Streak Deflectometry

      • Thomas Sokollik
      Pages 97-106

    6. Summary and Outlook

      • Thomas Sokollik
      Pages 107-108

  6. Appendix

    1. Front Matter

      Pages 109-109
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    2. Zernike Polynomials

      • Thomas Sokollik
      Pages 111-112

    3. Gated MCPs

      • Thomas Sokollik
      Pages 113-116
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Keywords

About this book

Laser-driven proton beams are still in their infancy but already have some outstanding attributes compared to those produced in conventional accelerators. One such attribute is the typically low beam emittance. This allows excellent resolution in imaging applications like proton radiography. This thesis describes a novel imaging technique - the proton streak camera - that the author developed and first used to measure both the spatial and temporal evolution of ultra-strong electrical fields in laser-driven plasmas. Such investigations are of paramount importance for the understanding of laser-plasma interactions and, thus, for optimization of laser-driven particle acceleration. In particular, the present work investigated micrometer-sized spherical targets after laser irradiation. The confined geometry of plasmas and fields was found to influence the kinetic energy and spatial distribution of accelerated ions. This could be shown both in experimental radiography images and and in numerical simulations, one of which was selected for the cover page of Physical Review Letters.

Authors and Affiliations

  • Lawrence Berkeley National Lab., Berkeley, USA

    Thomas Sokollik

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