Motion of charged particles in electric and magnetic fields / L.A. Artsimovich & S.Yu. Lukyanov ; translated from the Russian by Oleg Glebov.
Publication details: Moscow : Mir, 1980.Description: 224 p. : ill. ; 21 cmUniform titles:- Dvizhenie zari︠a︡zhennykh chastit︠s︡ v ėlektricheskikh i magnitnykh poli︠a︡kh. English
- 621.3 ART 22 ART
Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Book Open Access | Engineering Library | 621.3 ART ART 4 (Browse shelf(Opens below)) | Available | BUML24020024 | ||
Book Open Access | Engineering Library | 537.6 ART 1 (Browse shelf(Opens below)) | 1 | Available | BUML23111880 | |
Book Open Access | Engineering Library | 537.6 ART 2 (Browse shelf(Opens below)) | 2 | Available | 0027301 | |
Book Open Access | Engineering Library | 621.3 ART ART 3 (Browse shelf(Opens below)) | 3 | Available | BUML24020023 | |
Book Open Access | Engineering Library | 621.3 ART ART 5 (Browse shelf(Opens below)) | 5 | Available | BUML24020025 |
Contents;
Chapter I: Motion in an electric field
1. The force acting on a charged particle. Equations of motion
2. The analogy between the motion of charged particles in electrostatic fields and propagation of light beams in transparent media.
3. Centered electron-optical systems. The basic equation of electron optics for axially symmetric fields
etc.
Chapter II: Motion in a magnetic field
7. Motion in a uniform magnetic field
8. Axially symmetric magnetic fields. Short-coil focusing
9. The electron microscope
10. Motion in a slowly varying magnetic field. Adiabatic invariant.
etc.
Chapter III: Motion in combined fields
13. Motion of charged particles under the effect of a uniform electric field and a uniform magnetic field
14. General description of the motion of charged particle in combined fields
15. Mass spectroscopy
16. Electromagnetic separation of isotopes
Chapter IV: Motion at velocities comparable to the velocity of light. Cyclic accelerations
17. Fundamental formulas of relativistic dynamics
18. The cyclotron
19. The betatron
20. Modern high-energy accelerators
21. Colliding-beam accelerators
Chapter V: Motion in the field of a point charge
22. Scattering of charged particles in a Coulomb field. The Rutherford formula
Chapter VI: Plasma physics
23. Definition of plasma. Debye length
24. Motion of electrons and ions in plasma (in the absence of external fields)
25. Plasma in an electric field
26. Plasma in a strong magnetic field
27. Some applications of plasma physics. Controlled synthesis of light nuclei
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