Physics Subject Headings - Physh

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  2. L: 162 terms
  1. Laboratory plasma
  2. Laboratory studies of gravity
  3. Laboratory studies of space & astrophysical plasmas
  4. Lagrangian particle tracking
  5. Landau Fermi liquid theory USE Fermi liquid theory
  6. Landau levels
  7. Landau-Ginzburg theory
  8. Landau-Ginzburg-Wilson theory
  9. Landau-Lifschitz-Gilbert equation
  10. Landau-Lifshitz model
  11. Landau-Zener effect
  12. Landau-Zener transition USE Landau-Zener effect
  13. Landauer formula
  14. Langevin algorithm
  15. Langevin equation
  16. Langmuir-Blodgett deposition
  17. Langmuir-Blodgett films
  18. Language models
  19. Language networks
  20. Lanthanides
  21. LAPW USE Plane wave
  22. Large deviation & rare event statistics
  23. Large scale structure of the Universe
  24. Large-N expansion in field theory
  25. Larynx
  26. Laser ablation
  27. Laser annealing
  28. Laser applications
  29. Laser driven electron acceleration
  30. Laser driven ion acceleration
  31. Laser dynamics
  32. Laser inertial confinement
  33. laser instabilities USE Laser dynamics
  34. Laser light absorption in plasmas
  35. Laser spectroscopy
  36. Laser systems
  37. Laser techniques
  38. Laser theory
  39. Laser trapping USE Optical tweezers
  40. Laser wakefield acceleration
  41. Laser-beam impact phenomena
  42. Laser-cluster interaction
  43. Laser-induced magnetic effects USE Light-induced magnetic effects
  44. Laser-induced magnetic fields in plasmas
  45. Laser-plasma interactions
  46. Laser-system design
  47. Lasers
  48. Lasing without inversion
  49. Lattice dynamics
  50. Lattice field theory
  51. Lattice gases
  52. Lattice gauge theory
  53. Lattice models in condensed matter
  54. Lattice models in statistical physics
  55. Lattice QCD
  56. Lattice thermal conductivity
  57. Lattice-Boltzmann methods
  58. Lattices
  59. Lattices in beam optics
  60. LDA
  61. LDA+DMFT
  62. LDA+U
  63. LDOS USE Local density of states
  64. Leaky integrate-and-fire model
  65. Learning
  66. Learning environment
  67. Learning theory
  68. Leaves
  69. LEDs
  70. Lee-Yang & Fisher zeroes
  71. LEED USE Low-energy electron diffraction
  72. LEEM USE Low-energy electron microscopy
  73. LEIS USE Ion scattering from surfaces
  74. Lepton colliders
  75. Lepton induced nuclear reactions
  76. Lepton-hadron colliders
  77. Lepton-lepton interactions
  78. Leptonic, semileptonic & radiative decays
  79. Leptons
  80. Leptoquarks
  81. Levy flights
  82. Lie groups USE Continuous symmetries
  83. Lifetimes & widths
  84. Light detection
  85. Light mesons
  86. Light propagation, transmission & absorption
  87. Light scattering
  88. Light sheet fluorescence microscopy
  89. Light sources USE Synchrotron radiation & free-electron lasers
  90. Light therapy
  91. Light-emitting diodes USE LEDs
  92. Light-induced magnetic effects
  93. Light-matter interaction
  94. Lightning USE Atmospheric electricity
  95. Limb development
  96. Linacs USE Linear accelerators
  97. Line defects
  98. Linear accelerators
  99. Linear acoustics
  100. Linear colliders
  101. Linear polymer
  102. Linear response theory
  103. Linear viscosity
  104. Lipids
  105. Liquid bridges
  106. Liquid crystal blue phase
  107. Liquid crystal lasers
  108. Liquid crystal phase transitions
  109. Liquid crystal polymers USE Liquid crystalline polymers
  110. Liquid crystalline polymers
  111. Liquid crystals
  112. Liquid epitaxy
  113. Liquid helium cooling
  114. Liquid metals
  115. Liquid nitrogen cooling
  116. Liquid-gas phase transition
  117. Liquid-liquid interfaces
  118. Liquid-liquid phase transition
  119. Liquid-solid interfaces
  120. Liquid-solid phase transition
  121. Liquid-vapor interfaces USE Gas-liquid interfaces
  122. Liquids
  123. Lithography
  124. LLG USE Landau-Lifschitz-Gilbert equation
  125. Local density approximation USE LDA
  126. Local density of states
  127. Localization
  128. Locomotion
  129. LOFF USE FFLO
  130. London theory
  131. Long-range interactions
  132. Loop quantum gravity
  133. Lorentz microscopy
  134. Lorentz symmetry
  135. Loss-cone instability
  136. Low & intermediate energy heavy-ion reactions
  137. Low energy electron diffraction USE Low-energy electron diffraction
  138. Low Reynolds number swimmers
  139. Low- & intermediate-energy accelerators
  140. Low-energy accelerators USE Low- & intermediate-energy accelerators
  141. Low-energy electron diffraction
  142. Low-energy electron microscopy
  143. Low-energy ion scattering spectroscopy USE Ion scattering from surfaces
  144. Low-energy multiple-particle dynamics
  145. Low-field & Townsend plasma discharges
  146. Low-temperature plasma
  147. Low-temperature superconductors
  148. Lower undergraduate students
  149. Lower-dimensional field theories
  150. Lubricants
  151. Lubrication
  152. Luminescence
  153. Lunar atmosphere
  154. Lunar dust & plasma
  155. Lunar magnetic field
  156. Lunar plasmas
  157. Luttinger liquid model
  158. Luttinger liquid theory USE Luttinger liquid model
  159. Luttinger–Kohn model
  160. LWI USE Lasing without inversion
  161. Lyotropic liquid crystals
  162. Lyotroptic active nematics