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The Modifications of Metallic and Inorganic Materials by Using Energetic Ion/Electron Beams

The Modifications of Metallic and Inorganic Materials by Using Energetic Ion/Electron Beams

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This book consists of original and review papers which describe basic and applied studies for the modifications of metallic and inorganic materials by using energetic ion/electron beams. When materials are irradiated with energetic charged particles (ions /electrons), their energies are transferred to electrons and atoms in materials, and the lattice structures of the materials are largely changed to metastable or non-thermal-equilibrium states, modifying several physical properties. Such phenomena will engage the interest of researchers as a basic science, and can also be used as promising tools for adding new functionalities to existing materials and for the development of novel materials. The papers in this book cover the ion/electron-beam-induced modifications of several properties (optical, electronic, magnetic, mechanical, and chemical properties) and lattice structures. This book will, therefore, be useful for many scientists and engineers who have been involved in fundamental material science and the industrial applications of metallic and inorganic materials.

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Keywords

  • accelerator-driven system (ADS)
  • Al
  • Al2O3
  • anisotropy
  • beam condition
  • beam viewer
  • binomial and Poisson distribution functions
  • CeO2
  • ceria
  • cerium oxide
  • chromatic change
  • columnar defects
  • copper oxide
  • critical current
  • critical current density
  • Defects
  • degradation
  • displacement damage
  • electrocatalyst
  • electrodeposition
  • electron irradiation
  • electronic excitation
  • electron–lattice coupling
  • excited reaction field
  • flux pinning
  • groove
  • heavy-ion irradiation
  • high energy irradiation
  • high-Tc superconductors
  • hillocks
  • hole
  • ion accelerators at WERC
  • ion beam
  • ion irradiation
  • ion track overlapping
  • ion tracks
  • ion-track etching
  • irradiation
  • irradiation effect on corrosion behavior
  • irradiation effects on space electronics
  • irradiation hardening
  • irradiation test
  • ISO
  • laser photocathode
  • lattice disordering
  • lattice structures and magnetic states
  • lead–bismuth eutectic (LBE)
  • Light Water Reactor
  • liquid metal corrosion (LMC)
  • Manipulation
  • metal surface
  • micro/nano-sized metal cones
  • Molecular Dynamics
  • Monte Carlo simulation for two-dimensional images
  • n/a
  • nanomaterials
  • nanopore structure
  • nanostructure
  • nuclear fuel cladding
  • optical waveguide
  • oxides
  • oxygen concentration in LBE
  • partially stabilized zirconia
  • pattern
  • phase transition
  • photoemission spectrum
  • pulsed electron sources
  • pulsed transmission electron microscope
  • radiation damage
  • radiation simulation
  • Reference, information & interdisciplinary subjects
  • refractive index profiling
  • Research & information: general
  • self-ion irradiation
  • self-organization
  • simulation
  • single event
  • solar cell
  • space application
  • sputtering
  • Standardization
  • structural analysis
  • superconductor
  • swift heavy ion
  • swift heavy ions
  • synergy effect
  • TEM
  • template synthesis
  • thermal desorption spectroscopy
  • total ionization dose
  • transmission electron microscope
  • transmission electron microscopy
  • vanadium alloy
  • XRD
  • YAG (Y3Al5O12)
  • zirconium alloys

Links

DOI: 10.3390/books978-3-0365-3094-9

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