Physics:Quantum vacuum state

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A quantum vacuum state is the lowest-energy state of a quantum system or field. In quantum field theory it is not simply empty space: fields can have zero-point fluctuations, vacuum expectation values, and observable effects even when no ordinary particles are present. The vacuum-state concept links field theory, particle physics, cosmology, and condensed matter systems.^[1]^[2]

Vacuum state: the lowest-energy field state with nonzero quantum fluctuations.

Not empty space

The quantum vacuum has no particles in a chosen field-mode description, but it can still contain fluctuations and correlations. Effects such as the Casimir effect, vacuum polarization, and spontaneous emission are often discussed using vacuum-state language.^[3]

Observer and field dependence

The meaning of a vacuum can depend on the field theory, boundary conditions, and spacetime background. In curved spacetime or accelerating frames, different observers may not agree on the same particle content.^[4]

Relation to other pages

Vacuum energy, zero-point energy, virtual particles, and false vacuum states are related ideas, but they emphasize different parts of the vacuum concept: energy density, ground-state motion, perturbative diagrams, or metastability.

See also

Table of contents (84 articles)

Index

Composite matter

3. Plasma and fusion physics

5. Nuclear matter

Sub-molecular

8. Composite particles

10. Vacuum and spacetime

Full contents

1. Materials (6) Back to index

1. Physics:Quantum materials/band structure

2. Physics:Quantum materials/phonon

3. Physics:Quantum materials/superconductor

4. Physics:Quantum materials/topological phase

5. Physics:Quantum materials/crystal lattice

6. Physics:Quantum materials/solid state

2. Matter (5) Back to index

7. Physics:Quantum matter/phase

8. Physics:Quantum matter/state of matter

9. Physics:Quantum matter/thermodynamic system

10. Physics:Quantum matter/density

11. Physics:Quantum matter/temperature

3. Plasma and fusion physics (6) Back to index

12. Physics:Quantum Tokamak

13. Physics:Quantum Fusion

14. Physics:Quantum matter/plasma

15. Physics:Quantum magnetic confinement

16. Physics:Quantum Lawson criterion

17. Physics:Quantum Quark–gluon plasma

4. Molecules (6) Back to index

18. Physics:Quantum molecular structure

19. Physics:Quantum chemical bond

20. Physics:Quantum molecular orbital

21. Physics:Quantum degenerate orbitals

22. Physics:Quantum molecular spectroscopy

23. Physics:Quantum molecular vibration

5. Nuclear matter (6) Back to index

24. Physics:Quantum atomic nucleus

25. Physics:Quantum nuclear matter

26. Physics:Quantum isotope

27. Physics:Quantum deuteron

28. Physics:Quantum nuclear binding energy

29. Physics:Quantum nuclear force

6. Atoms (7) Back to index

30. Physics:Quantum atoms/electron

31. Physics:Quantum atoms/energy level

32. Physics:Quantum atoms/electron configuration

33. Physics:Quantum atoms/transition

34. Physics:Quantum atoms/ion

35. Physics:Quantum atoms/orbital

36. Physics:Quantum atoms/hydrogen

7. Particles (12) Back to index

37. Physics:Quantum particle

38. Physics:Quantum elementary particle

39. Physics:Quantum fermion

40. Physics:Quantum boson

41. Physics:Quantum lepton

42. Physics:Quantum electron

43. Physics:Quantum neutrino

44. Physics:Quantum quark

45. Physics:Quantum photon

46. Physics:Quantum gluon

47. Physics:Quantum W and Z bosons

48. Physics:Quantum Higgs boson

8. Composite particles (12) Back to index

49. Physics:Quantum hadron

50. Physics:Quantum baryon

51. Physics:Quantum meson

52. Physics:Quantum nucleon

53. Physics:Quantum proton

54. Physics:Quantum neutron

55. Physics:Quantum pion

56. Physics:Quantum kaon

57. Physics:Quantum glueball

58. Physics:Quantum tetraquark

59. Physics:Quantum pentaquark

60. Physics:Quantum exotic hadron

9. Fields (12) Back to index

61. Physics:Quantum field theory

62. Physics:Quantum electromagnetic field

63. Physics:Quantum gauge field

64. Physics:Quantum scalar field

65. Physics:Quantum vacuum field

66. Physics:Quantum wavefunction field

67. Physics:Quantum spinor field

68. Physics:Quantum matter field

69. Physics:Quantum Higgs field

70. Physics:Quantum Yang-Mills field

71. Physics:Quantum photon field

72. Physics:Quantum gluon field

10. Vacuum and spacetime (12) Back to index

73. Physics:Quantum spacetime

74. Physics:Quantum vacuum energy

75. Physics:Quantum virtual particle

76. Physics:Quantum zero-point energy

77. Physics:Quantum curved spacetime

78. Physics:Quantum quantum gravity

79. Physics:Quantum vacuum state

80. Physics:Quantum false vacuum

81. Physics:Quantum Planck scale

82. Physics:Quantum spacetime foam

83. Physics:Quantum metric field

84. Physics:Quantum field theory in curved spacetime

References

↑ "Vacuum state". https://en.wikipedia.org/wiki/Vacuum_state.
↑ Schwartz, Matthew D. (2014). Quantum Field Theory and the Standard Model. Cambridge University Press. ISBN 978-1-107-03473-0.
↑ Schwartz, Matthew D. (2014). Quantum Field Theory and the Standard Model. Cambridge University Press. ISBN 978-1-107-03473-0.
↑ Wald, Robert M. (1994). Quantum Field Theory in Curved Spacetime and Black Hole Thermodynamics. University of Chicago Press. ISBN 978-0-226-87027-4.

Author: Harold Foppele

Source attribution: Physics:Quantum vacuum state

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