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  <identifier identifierType="DOI">10.18453/rosdok_id00001707</identifier>
  <creators>
    <creator>
      <creatorName nameType="Personal">Peltz, Christian</creatorName>
      <givenName>Christian</givenName>
      <familyName>Peltz</familyName>
      <nameIdentifier nameIdentifierScheme="GND" schemeURI="http://d-nb.info/gnd/">http://d-nb.info/gnd/1084822083</nameIdentifier>
    </creator>
  </creators>
  <titles>
    <title>Fully microscopic analysis of laser-driven finite plasmas</title>
  </titles>
  <publisher>Universität Rostock</publisher>
  <publicationYear>2016</publicationYear>
  <resourceType resourceTypeGeneral="Text" />
  <subjects>
    <subject xml:lang="en" schemeURI="http://dewey.info/" subjectScheme="dewey">530 Physics</subject>
  </subjects>
  <dates>
    <date dateType="Created">2016</date>
  </dates>
  <language>en</language>
  <alternateIdentifiers>
    <alternateIdentifier alternateIdentifierType="PURL">http://purl.uni-rostock.de/rosdok/id00001707</alternateIdentifier>
    <alternateIdentifier alternateIdentifierType="URN">urn:nbn:de:gbv:28-diss2016-0020-7</alternateIdentifier>
  </alternateIdentifiers>
  <descriptions>
    <description descriptionType="Abstract">A broad spectrum of experiments and applications takes place in the realm of intense but non-relativistic light-matter interaction. In particular for intensities close to the ionization threshold, the underlying dynamics proceeds far from equilibrium and is strongly coupled. So far, a rigorous classical description of such scenarios has been limited to small system sizes. In the framework of this thesis the novel microscopic particle-in-cell (MicPIC) model has been developed and applied to so far numerically inaccessible scenarios, ranging from nonlinear plasma wave dynamics to x-ray imaging.</description>
  </descriptions>
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