Low-dimensional life of critical Anderson electron

@article{Horvath2022LowdimensionalLO,
  title={Low-dimensional life of critical Anderson electron},
  author={Ivan Horv'ath and Peter Marko{\vs}},
  journal={Physics Letters A},
  year={2022}
}
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and a at

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Introduction to Wave Scattering, Localization and Mesoscopic Phenomena. Second edition

Quantum and Classical Waves.- Wave Scattering and the Coherent Potential Approximation.- Coherent Waves and Effective Media.- Diffusive Waves.- The Coherent Backscattering Effect.- Renormalized

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