Physics Subject Headings - Physh

  1. QCD USE Quantum chromodynamics
  2. QCD in nuclear reactions
  3. QCD phase transitions
  4. QED USE Quantum electrodynamics
  5. QFT USE Quantum field theory
  6. QHE USE Quantum Hall effect
  7. QKD USE Quantum cryptography
  8. QPC USE Point contacts
  9. Quantum algorithms
  10. Quantum annealing USE Adiabatic quantum optimization
  11. Quantum anomalous Hall effect
  12. Quantum aspects of black holes
  13. Quantum benchmarking
  14. Quantum billiards
  15. Quantum biophysics
  16. Quantum cascade lasers
  17. Quantum cavities
  18. Quantum channels
  19. Quantum chaos
  20. Quantum chaotic systems
  21. Quantum chaotic transport
  22. Quantum chemistry methods
  23. Quantum chromodynamics
  24. Quantum cloning USE Quantum protocols
  25. Quantum coherence & coherence measures
  26. Quantum communication
  27. Quantum computation
  28. Quantum control
  29. Quantum correlations in quantum information
  30. Quantum cosmology
  31. Quantum criticality
  32. Quantum cryptography
  33. Quantum description of light-matter interaction
  34. Quantum discord
  35. Quantum dots
  36. Quantum electrodynamics
  37. Quantum entanglement
  38. Quantum error correction
  39. Quantum feedback
  40. Quantum field theory
  41. Quantum field theory (low energy)
  42. Quantum fields in curved spacetime
  43. Quantum fluctuations & noise
  44. Quantum fluids & solids
  45. Quantum formalism
  46. Quantum foundations
  47. Quantum games USE Quantum protocols
  48. Quantum gases USE Quantum fluids & solids
  49. Quantum gates
  50. Quantum graphs
  51. Quantum gravity
  52. Quantum group symmetries
  53. Quantum Hall effect
  54. Quantum heat engines & refrigerators
  55. Quantum Information
  56. Quantum information architectures & platforms
  57. Quantum information processing
  58. Quantum information processing with continuous variables
  59. Quantum information with atoms & light
  60. Quantum information with hybrid systems
  61. Quantum information with solid state qubits
  62. Quantum information with trapped ions
  63. Quantum interference effects
  64. quantum key distribution USE Quantum cryptography
  65. Quantum kicked rotor
  66. Quantum kinetic theory
  67. Quantum machine learning USE Machine learning
  68. Quantum magnetism USE Spin lattice models
  69. Quantum master equation
  70. Quantum measurements
  71. Quantum memories
  72. Quantum memory USE Quantum memories
  73. Quantum metrology
  74. Quantum Monte Carlo
  75. Quantum networks
  76. Quantum nonlocality
  77. Quantum optics
  78. Quantum optics with artificial atoms
  79. Quantum orbits theory
  80. Quantum oscillation techniques
  81. Quantum parameter estimation
  82. Quantum phase transitions
  83. Quantum plasmas
  84. Quantum point contacts USE Point contacts
  85. Quantum protocols
  86. Quantum quench
  87. Quantum ratchets
  88. Quantum repeaters
  89. Quantum rings
  90. Quantum scars
  91. Quantum sensing
  92. Quantum simulation
  93. Quantum spin chains
  94. Quantum spin Hall effect
  95. Quantum spin liquid
  96. Quantum spin models
  97. Quantum state engineering
  98. Quantum state transfer
  99. Quantum states of light
  100. Quantum states of matter USE Quantum fluids & solids
  101. Quantum statistical mechanics
  102. Quantum stochastic processes
  103. Quantum teleportation
  104. Quantum theory
  105. Quantum thermodynamics
  106. Quantum tomography
  107. Quantum transport
  108. Quantum walks
  109. Quantum wells
  110. Quantum wires
  111. Quantum Zeno dynamics
  112. Quantum-to-classical transition
  113. Quark & gluon jets
  114. Quark mixing
  115. Quark model
  116. Quark-gluon plasma
  117. Quarkonia
  118. Quarks
  119. Quasi elastic neutron scattering
  120. Quasi-elastic neutron scattering USE Quasi elastic neutron scattering
  121. Quasiclassical methods USE Semiclassical methods
  122. Quasicrystalline structure
  123. Quasicrystals
  124. Quasiparticles USE Quasiparticles & collective excitations
  125. Quasiparticles & collective excitations