Encyclopedia of Applied Physics

Encyclopedia of Applied Physics

Online ISBN: 9783527600434

DOI: 10.1002/3527600434

Browse by Topic

  1. Acoustics
  2. Atomic and Molecular Physics
  3. Biophysical and Medical Physics
  4. Condensed Matter A: Structure and Mechanical Properties
  5. Condensed Matter B: Thermal, Acoustic, and Quantum Properties
  6. Condensed Matter C: Electronic Properties
  7. Condensed Matter D: Magnetic Properties
  8. Condensed Matter E: Dielectrical and Optical Properties
  9. Condensed Matter F: Surfaces and Interfaces
  10. Electricity and Magnetism
  11. Energy Research and Environmental Physics
  12. Fluids and Plasma Physics
  13. General Aspects: Mathematical, Computational, and Information Techniques
  14. Geophysics, Meteorology, Space Physics, and Aeronautics
  15. Materials Science
  16. Measurement Science, General Devices and / or Methods
  17. Nuclear and Elementary Particle Physics
    1. Accelerator Mass Spectrometry and its Applications
    2. Accelerators, Potential-Drop
    3. Applied String Theory
    4. Betatrons
    5. Cancer Therapy with Ion Beams
    6. Cyclotrons
    7. Design and Application of Cyclotrons
    8. Electrostatic Accelerators
    9. Exotic Nuclear Beam Facilities
    10. Free-Electron Lasers
    11. Fundamentals of Controlled Nuclear Fission and Essential Characteristics of Pressurized-Water Reactors
    12. Fusion Energy by Magnetic Confinement
    13. Gamma-Ray Spectrometers
    14. Generation IV Nuclear Reactors
    15. Gravitation and General Relativity
    16. Heavy Ion Inertial Fusion
    17. Linear Accelerators
    18. Managing the Extreme Dataflow of LHC Experiments
    19. Mössbauer Spectroscopy
    20. Muon Spectroscopy
    21. Neutrino Astrophysics
    22. Neutron Stars
    23. Nuclear Astrophysics
    24. Nuclear γ-Spectroscopy and the γ-Spheres
    25. Nuclear Medicine
    26. Nuclear Reactions
    27. Nuclear Structure
    28. Optics and Nuclear Photonics
    29. Particle Colliders
    30. Particle Physics
    31. Particle Sources—Ion
    32. Particles, Elementary
    33. The Physics of Nuclear Power from Fission and Fusion
    34. Physics of the Neutron
    35. The Proton
    36. Quantum Electrodynamics
    37. Quantum Mechanics
    38. Radioactivity
    39. Relativistic Nucleus–Nucleus Collisions
    40. Sources, Particle—Electron
    41. Spectrometers, Electron and Ion
    42. Spectrometers, Neutron
    43. The Standard Model of Elementary Particles
    44. Strong Interaction
    45. Superheavy Nuclei
    46. Supernovae and their Nucleosynthesis
    47. Synchrotrons and Storage Rings
    48. Targets for Particle Accelerators
    49. Transmutation of High-Level Nuclear Waste by Means of Accelerator Driven System (ADS)
    50. Unified Field Theories
    51. Weak Interaction
  18. Optics (classical and quantum)
  19. Physical Chemistry
  20. Superconductivity
  21. Thermodynamics and Properties of Gases

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