Physics:Quantum Plasma physics

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Quantum plasma physics studies ionized matter when collective electromagnetic behavior must be understood together with microscopic particle motion, radiation, collisions, waves, or quantum-scale constraints. In the Quantum Collection it connects fusion plasmas, kinetic theory, transport, drift motion, instabilities, and detector or beam environments where charged particles interact through long-range fields.

Overview

Plasma physics treats matter made of charged particles whose motion is coupled through electromagnetic fields. Quantum and high-energy contexts often use kinetic descriptions, magnetohydrodynamic approximations, transport coefficients, and wave-particle interactions to connect microscopic dynamics with macroscopic plasma behavior.

See also

Table of contents (49 articles)

Index

Methods and tools

1. Mathematical methods

2. Measurement techniques

3. Experimental methods

4. Quantum information methods

Advanced methods

5. Computational methods

6. Statistical and thermodynamic methods

7. Field and many-body methods

8. Plasma and kinetic methods

Full contents

1. Mathematical methods (6) Back to index

1. Physics:Quantum methods/operator

2. Physics:Quantum methods/approximation

3. Physics:Quantum methods/linear algebra

4. Physics:Quantum methods/equation

5. Physics:Quantum methods/basis

6. Physics:Quantum methods/transformation

2. Measurement techniques (7) Back to index

7. Physics:Quantum Cascade Detector

8. Physics:Quantum methods/measurement

9. Physics:Quantum methods/observable

10. Physics:Quantum methods/projection

11. Physics:Quantum methods/uncertainty

12. Physics:Quantum methods/detector

13. Physics:Quantum methods/signal

3. Experimental methods (6) Back to index

14. Physics:Quantum methods/experiment

15. Physics:Quantum methods/optics

16. Physics:Quantum methods/laser

17. Physics:Quantum methods/interference

18. Physics:Quantum methods/beam splitter

19. Physics:Quantum methods/spectroscopy

4. Quantum information methods (6) Back to index

20. Physics:Quantum methods/information theory

21. Physics:Quantum methods/quantum gate

22. Physics:Quantum methods/quantum circuit

23. Physics:Quantum methods/entanglement

24. Physics:Quantum methods/error correction

25. Physics:Quantum methods/communication

5. Computational methods (6) Back to index

26. Physics:Quantum methods/simulation

27. Physics:Quantum methods/algorithm

28. Physics:Quantum methods/qubit

29. Physics:Quantum methods/noise

30. Physics:Quantum methods/optimization

31. Physics:Quantum methods/sampling

6. Statistical and thermodynamic methods (6) Back to index

32. Physics:Quantum methods/statistics

33. Physics:Quantum methods/distribution

34. Physics:Quantum methods/ensemble

35. Physics:Quantum methods/thermodynamics

36. Physics:Quantum methods/entropy

37. Physics:Quantum methods/equilibrium

7. Field and many-body methods (6) Back to index

38. Physics:Quantum methods/field theory

39. Physics:Quantum methods/quantization

40. Physics:Quantum methods/renormalization

41. Physics:Quantum methods/perturbation

42. Physics:Quantum methods/correlation

43. Physics:Quantum methods/many-body

8. Plasma and kinetic methods (6) Back to index

44. Physics:Quantum kinetic theory

45. Physics:Quantum Vlasov equation

46. Physics:Quantum Magnetohydrodynamics

47. Physics:Quantum Transport theory

48. Physics:Quantum Drift

49. Physics:Quantum collision operator

References

Author: Harold Foppele

Source attribution: Physics:Quantum Plasma physics

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