## Polarization Bremsstrahlung on Atoms, Plasmas, Nanostructures and SolidsThe book is devoted to the modern theory and experimental manifestation of Polarization Bremsstrahlung (PB) which arises due to scattering of charged particles from various targets: atoms, nanostructures (including atomic clusters, nanoparticle in dielectric matrix, fullerens, graphene-like two-dimensional atomic structure) and in condensed matter (monocrystals, polycrystals, partially ordered crystals and amorphous matter) The present book addresses mainly researchers interested in the radiative processes during the interaction between fast particles and matter. It also will be useful for post-graduate students specializing in radiation physics and related fields. |

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### Contents

1 | |

17 | |

Chapter 3 QuasiClassical Theory of Bremsstrahlung on an Atom and an Ion with a Core | 63 |

Chapter 4 Bremsstrahlung in Plasma with Account for the Polarization Channel | 107 |

Chapter 5 Bremsstrahlung of Fast Charged Particles in a Solid Body | 137 |

Chapter 6 Bremsstrahlung of Fast Charged Particles with an Electron Core in a Medium | 156 |

Chapter 7 Investigation of Bremsstrahlung of Nonrelativistic Electrons in Thick and Thin Metal Targets | 187 |

Chapter 8 Polarization Bremsstrahlung on Nanostructures | 207 |

Chapter 10 Induced Bremsstrahlung Effect in an Electromagnetic Field with Account for Interference Phenomena | 267 |

Chapter 11 Review of Possible PBs Applications for Structure Diagnostics and as an Effective Source of Xray and UV Radiation | 307 |

Chapter 12 Conclusions | 334 |

Appendix 1 Dynamic Polarizability of an Atom | 347 |

Appendix 2 Methods of Description of the Electron Core of Multielectron Atoms and Ions | 353 |

Appendix 3 Dynamic Form Factor of Plasma Particles | 363 |

375 | |

Chapter 9 Experimental Observation of Polarization Bremsstrahlung on Atoms Clusters and Solids | 244 |

### Other editions - View all

Polarization Bremsstrahlung on Atoms, Plasmas, Nanostructures and Solids Valeriy Astapenko No preview available - 2013 |

Polarization Bremsstrahlung on Atoms, Plasmas, Nanostructures and Solids Valeriy Astapenko No preview available - 2013 |

Polarization Bremsstrahlung on Atoms, Plasmas, Nanostructures and Solids Valeriy Astapenko No preview available - 2015 |

### Common terms and phrases

amplitude angular Astapenko atomic electrons bound electrons bremsstrahlung photon calculation cluster coherent PBs component contribution corresponding crystal deﬁned dependence dielectric permittivity dipole dipole moment dynamic polarizability eigenﬁeld eigenfrequency electric ﬁeld electromagnetic ﬁeld electron core electron density electron scattering electron velocity emission equation expression external ﬁeld ﬁgure ﬁnd ﬁrst form factor formula Fourier transform frequency range fullerene graphene Hartree-Fock high-frequency impact parameter incident particle incoherent PBs inﬂuence integration with respect intensity interaction ion core ionization IP energy IP velocity laser ﬁeld maxima momentum nanosphere near-resonance nucleus number of atoms obtained PBs cross-section permittivity photodetector photon energy Phys plasma frequency Plasma Physics polarization bremsstrahlung polarization channel polycrystal potential presented in Fig quasi-classical R-factor radiation angle radius real photon reciprocal lattice vector relativistic electrons resonance satisﬁed solid curve speciﬁed spectral cross-section spectral range static channel summand target Thomas-Fermi transition Tsytovich virtual photon wave vector