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Electron Scattering from Atoms, Ions and Molecules

Electron Scattering from Atoms, Ions and Molecules

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Electron collision physics covers a broad range of processes in atoms and molecules. Understanding these processes can be achieved via experimental and theoretical investigations that support and challenge each other. The last few decades have been witness to tremendous progress in both the computational and experimental techniques applied to study and model electron-driven processes. Access to modern supercomputer facilities has allowed for the computational modelling of collision processes involving complex atoms and molecules; in turn, this allows for a sophisticated modelling and the diagnostic assessment of various plasmas. Applications of electron collision physics range from fusion, precision measurement and attoclocks to radiation damage and biomedical research. This volume collates diverse applications of collision physics, highlighting the importance and power of theoretical and computational techniques while also presenting new experiments which disclose exciting new developments in collision processes.

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Keywords

  • absolute cross sections
  • angular time delay
  • Ar and Ar+ collisional radiative model
  • argon plasma
  • ASW potential
  • chemical model
  • collisional radiative modeling
  • correlation polarization
  • coupled-cluster theory
  • cross section
  • cross-sections
  • dipole polarizability
  • DWBA
  • Dynamics
  • elastic scattering
  • electric polarizabilities
  • electron energy distribution
  • electron impact excitation
  • electron ionization
  • electron scattering
  • electron-impact excitation cross-sections
  • Electrons
  • ionisation
  • magic wavelength
  • magnetron discharges
  • Mathematics & science
  • molecular processes—ISM: molecules
  • Molecules
  • n/a
  • optical emission spectroscopy
  • PCI
  • Physics
  • pulsed gas injection
  • rate equations
  • Reference, information & interdisciplinary subjects
  • relativistic all-order method
  • relativistic distorted wave theory
  • Research & information: general
  • RF plasma
  • semiempirical potentials
  • shape resonances
  • simulation
  • tDCS
  • tin atom
  • tune-out wavelength
  • weighted and average sum

Links

DOI: 10.3390/books978-3-0365-7010-5

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