Physics Subject Headings - Physh

  1. Home
  2. P: 310 terms
  1. P-symmetry
  2. p-wave
  3. Packaging materials
  4. Packing & jamming problems
  5. Paints
  6. Pairing mechanisms
  7. Pancharatnam phase USE Geometric & topological phases
  8. Pancharatnam-Berry phase USE Geometric & topological phases
  9. Paraelectrics
  10. Paraexcitons
  11. Parafermions
  12. Parallel plate rheometer
  13. Paramagnetism
  14. Paramagnets
  15. Parametric conversion USE Second order nonlinear optical processes
  16. Parasitic diseases
  17. Parity
  18. Parity inversion USE P-symmetry
  19. Partial wetting
  20. Particle & resonance production
  21. Particle acceleration in plasmas
  22. Particle accelerators
  23. Particle astrophysics
  24. Particle correlations & fluctuations
  25. Particle dark matter
  26. Particle data analysis
  27. Particle decays
  28. Particle detectors
  29. Particle image velocimetry
  30. Particle in cell methods USE Particle-in-cell methods
  31. Particle interactions
  32. Particle mixing & oscillations
  33. Particle phenomena
  34. Particle plasma measurements
  35. Particle production
  36. Particle properties
  37. Particle sources & targets
  38. Particle tracking USE Lagrangian particle tracking
  39. Particle-beam sources
  40. Particle-in-cell methods
  41. Particle-induced x-ray emission
  42. Particle-laden flows
  43. Particles & Fields
  44. PAS USE Positron annihilation spectroscopy
  45. Patch clamping
  46. Patchy particles
  47. Path integrals
  48. Path-integral methods
  49. Path-integral Monte Carlo
  50. Pathology
  51. Paths
  52. Pattern formation
  53. Patterning
  54. Patterns in complex systems
  55. PCS USE Photon correlation spectroscopy
  56. PEEM USE Photoelectron emission microscopy
  57. Peierls transition
  58. Peltier effect
  59. Pendant drop test
  60. Penetration depth
  61. Penning discharges
  62. Penning traps
  63. PEPS USE Projected entangled pair states
  64. Peptides
  65. Percolation
  66. Percolation phase transition
  67. Percolation theory
  68. Periodically driven systems USE Floquet systems
  69. Permalloy
  70. Permittivity
  71. Perovskite
  72. Persistence length
  73. Perturbation theory
  74. Perturbative methods
  75. Perturbative QCD
  76. PFM USE Piezoresponse force microscopy
  77. Phase behavior
  78. Phase conjugation
  79. Phase contrast optical microscopy
  80. Phase diagrams
  81. Phase oscillator models
  82. Phase properties
  83. Phase separation
  84. Phase separation driven self-assembly
  85. Phase slips
  86. Phase space dynamics
  87. Phase space methods
  88. Phase transitions
  89. Phase transitions by order
  90. Phase transitions in clusters
  91. Phase-field modeling
  92. Phasons
  93. Phonon polariton
  94. Phonon-mediated pairing USE Electron-phonon coupling
  95. Phononic crystals USE Acoustic metamaterials
  96. Phonons
  97. Phosphorene
  98. Phosphorescence
  99. Photoassociation
  100. Photoconductivity
  101. Photocurrent USE Photoconductivity
  102. Photodetachment
  103. Photodiodes
  104. Photodissociation
  105. Photoelectron diffraction
  106. Photoelectron emission microscopy
  107. Photoelectron spectroscopy USE Photoemission spectroscopy
  108. Photoelectron techniques
  109. Photoemission
  110. Photoemission spectroscopy
  111. Photoexcitation
  112. Photogalvanic effect
  113. Photoinduced effect
  114. Photoionization
  115. Photoluminescence
  116. Photon & charged-lepton interactions with hadrons
  117. Photon correlation spectroscopy
  118. Photon counting
  119. Photon pairs & parametric down-conversion
  120. Photon statistics
  121. Photon, lepton & quark production
  122. Photonic crystal lasers
  123. Photonic crystals
  124. Photonics
  125. Photons
  126. Photonuclear reactions
  127. Photorefractive & Kerr effects
  128. Photosphere
  129. Photosystems
  130. Photovoltaic absorbers
  131. Photovoltaic cells USE Photovoltaic absorbers
  132. Photovoltaic effect
  133. Photovoltaic system USE Photovoltaic absorbers
  134. Physical deposition
  135. Physical Systems
  136. Physical vapor deposition
  137. Physics & society
  138. Physics Education Research
  139. Physiological flows
  140. Physisorption
  141. pi-pi stacking USE π-π stacking
  142. PIC USE Particle-in-cell methods
  143. Piezoelectricity
  144. Piezoelectrics
  145. Piezoresponse force microscopy
  146. Pinch-off
  147. Pions
  148. Plane wave
  149. Plane-wave expansion
  150. Planetary atmosphere
  151. Planetary bow shock
  152. Planetary magnetosphere
  153. Planetary plasmas
  154. Planetary satellites & rings
  155. Planets & planetary systems
  156. Plant ecology
  157. Plants
  158. Plasma acceleration & new acceleration techniques
  159. Plasma crystals
  160. Plasma diagnostic techniques
  161. Plasma discharges
  162. Plasma discharges in liquid & solid
  163. Plasma discharges in vacuum
  164. Plasma etching
  165. Plasma fusion
  166. Plasma instabilities
  167. Plasma interactions
  168. Plasma interactions with antennas
  169. Plasma ionization
  170. Plasma kinetic theory
  171. Plasma macroinstabilities
  172. Plasma microinstabilities
  173. Plasma oscillations
  174. Plasma Physics
  175. Plasma production & heating
  176. Plasma production & heating by high-voltage diodes
  177. Plasma production & heating by laser beams, laser-foil, laser-cluster
  178. Plasma production & heating by particle beams
  179. Plasma production & heating by shock waves & compression
  180. Plasma sheaths & surfaces
  181. Plasma sheet
  182. Plasma sources
  183. Plasma stability
  184. Plasma thermodynamics
  185. Plasma transport
  186. Plasma turbulence
  187. Plasma waves
  188. Plasma-beam interactions
  189. Plasma-particle interactions
  190. Plasma-solid interactions
  191. Plasma-wall interactions
  192. Plasmasphere
  193. Plasmonics
  194. Plasmons
  195. Plastic deformation
  196. Plasticity
  197. Platelets
  198. Plating
  199. Pneumodynamics
  200. Pnictides