JPS 79th Annual Meeting Keyword

Theoretical Particle Physics
Experimental Particle Physics
Theoretical Nuclear Physics
Experimental Nuclear Physics
Cosmic Rays/Astrophysics
Beam Physics
Division 1
Division 2
Division 3
Division 4
Division 5
Division 6
Division 7
Division 8
Division 9
Division 10
Division 11
Division 12
Division 13

Theoretical Particle Physics

Select one keyword or one combination of two keywords appropriate for your talk from the list below and fill the corresponding keyword number from (1) to (6). The meaning of the abbreviations is Th(theory), Ph(phenomenology), and Lat(lattice theory).

  • 1. Th
  • 2. Ph
  • 3. Lat
  • 4. Th/Ph
  • 5. Th/Lat
  • 6. Ph/Lat

Experimental Particle Physics

Select keywords which are the most appropriate for your talk from the list below. Choose one from the first group (indicate it by its number, 1 or 2). If you choose “1. Physics” from the first group, choose one from the second group (indicate it by its number, among 3 to 14). If you choose “2. Detectors” from the first group, choose one from the second group and one from the third group (indicate it by its alphabet), but the second group keyword can be optional. In principle, we will organise the programs based on your selected keywords.

    The first group of keywords
  • 1. Physics
  • 2. Detectors
  • The second group of keywords
  • 3. B, charm physics
  • 4. Kaon physics
  • 5. Tau physics
  • 6. Muon physics
  • 7. Neutrino physics
  • 8. Top physics
  • 9. Higgs, Electroweak physics
  • 10. New particle search
  • 11. QCD Physcs
  • 12. Hadron physics
  • 13. Symmetry breaking
  • 16. Other physics topics
  • The third group of keywords
  • A. Semiconductor detectors
  • B. Photon detectors
  • C. Gaseous ionization detectors
  • D. Tracking detectors
  • E. Calorimeters
  • F. Particle identification techniques
  • G. Triggers
  • H. DAQ/Readout electronics
  • I. Computing/Network/Software technologies (joint session)
  • J. Simulations
  • K. Accelerators/Beamlines
  • L. Detectors (Joint Session)
  • M. Other detector topics

Theoretical Nuclear Physics

All contributions must specify two keywords;choose one from each (first and second) group.You may add other keywords after these two.

    ○The first group of keywords
  • 1. Nuclear Force and Few-Body Systems
  • 2. Stable Nuclei
  • 3. Neutron-Rich Nuclei
  • 4. Proton-Rich Nuclei
  • 5. Structure of Light Nuclei
  • 6. Structure of Medium-Heavy Nuclei
  • 7. Structure of Heavy Nuclei
  • 8. High-Spin States
  • 9. Hypernuclei and Strangeness
  • 10. Nuclear Reaction and Heavy-Ion Reaction
  • 11. Nuclear Fission, Fusion, and Superheavy Nuclei
  • 12. Nuclear Astrophysics
  • 13. Weak Interaction and Neutrino Reaction
  • 14. Hadron Structure and Interactions
  • 15. Exotic Hadrons
  • 16. Nucleus-Meson Systems (Pionic Atom, Kaonic Nucleus, etc.)
  • 17. Nuclear and Quark Matter
  • 18. High-Energy Heavy-Ion Collisions
  • 19. High-Energy Hadron Reaction
  • 20. Student Presentation Award of the Physical Society of Japan (Oral presentation)
  • 21. Student Presentation Award of the Physical Society of Japan (Poster)
  • 22. Other Topics
  • ○The second group of keywords
  • A. Effective Interaction and G-matrix
  • B. Shell Model
  • C. Cluster Model
  • D. Mean-Field Theory and RPA
  • E. Molecular Dynamics
  • F. Coupled-Channels Method and Distorted Wave Model
  • G. Simulation Method for Nuclear Reaction
  • H. Perturbative QCD
  • I. Lattice QCD
  • J. Effective Model of Hadrons
  • K. Effective Theory and Chiral Perturbation
  • L. QCD Sum Rule
  • M. Renormalization Group
  • N. Basics of many-body theory
  • O. Others

Experimental Nuclear Physics

Choose the first and second(optional) keyword(s) which are most appropriate for your talk from the list below. For example, when your talk is mainly related to experimental devices (regardless of your physics topics), choose M, N, O, P, or Q as the first keyword.

  • A. Symmetry and Fundamental Physics
  • B. Unstable Nuclei
  • C. Hypernuclei and Strangeness
  • D. Meson Productions and Hadron Structure
  • E. High-Spin States and Nuclear Structure
  • F. Nuclear Moments
  • G. High-Energy Heavy-Ion Reactions
  • H. Light-Ion Reactions
  • I. Nuclear Astrophysics
  • J. Nuclear Fusion, Nuclear Fission, and Super-Heavy Elements
  • K. Exotic Atoms
  • L. Applications and Interdisciplinary Studies
  • M. Accelerators
  • N. Ion Sources and Targets
  • O. Particle and Photon Detectors
  • P. Data Acquisition Systems and Computer Softwares
  • Q. Detector Complex
  • R. High energy QCD, Nucleon structure
  • S. Double Beta Decay (Joint Session)
  • T. Dark Matter Search (Joint Session)
  • W. Others

Cosmic Rays/Astrophysics

  • A. High energy/Ultra-high energy cosmic rays
  • B. High energy gamma rays
  • C. High energy neutrinos
  • D. Theoretical astrophysics
  • E. Solar cosmic rays
  • F. X-rays/gamma rays
  • G. Cosmogenic nuclides
  • H. Gravitational waves
  • I. Neutrino oscillation (Joint Session)
  • J. Dark matter
  • K. Cosmic background radiation (Joint Session)
  • L. Relativity
  • M. Cosmology
  • N. Computing/Network/Software technology (Joint Session)
  • O. Others

Beam Physics

    ○The first group of key words
  • 1. beam physics
  • 2. beam application
  • 3. accelerator science
  • ○The second group of key words
  • 10. particle beam
  • 11. muon
  • 12. beam / plasma source
  • 13. electron beam source
  • 14. ion beam source
  • 15. multi-charged ion source
  • 16. neutron source
  • 17. gamma ray source
  • 18. polarized beam
  • 19. non-neutral plasma
  • 20. laser plasma
  • 21. accelerator
  • 22. electrostatic accelerator
  • 23. cyclotron
  • 24. synchrotron
  • 25. linac
  • 26. ERL(energy recovery linac)
  • 27. FFAG-synchrotron
  • 28. plasma acceleration
  • 29. beam storage ring
  • 30. collider
  • 31. beam-beam interaction
  • 32. beam-laser interaction
  • 33. beam-plasma interaction
  • 34. beam-reactor interaction
  • 35. beam-environment interaction
  • 36. light source
  • 37. synchrotron radiation
  • 38. insertion device
  • 39. free electron laser
  • 40. undulator
  • 41. wiggler
  • 42. coherent radiation
  • 43. betatron oscillation
  • 44. terahertz radiation
  • 45. electromagnet
  • 46. permanent magnet
  • 47. normal conducting magnet
  • 48. superconducting magnet
  • 49. pulsed magnet
  • 50. power supply
  • 51. vacuum
  • 52. beam dynamics
  • 53. beam theory
  • 54. acceleration principle
  • 55. numerical analysis/simulation
  • 56. beam instability
  • 57. space charge effect
  • 58. beam loss
  • 59. beam optics
  • 60. neutron beam optics
  • 61. beam diagnostics
  • 62. beam control
  • 63. beam monitor
  • 64. interlock
  • 65. ion trap
  • 66. beam cooling
  • 67. electromagnetic field calculation
  • 68. rf source
  • 69. high-power pulse source
  • 70. laser
  • 71. particle beam application
  • 72. medical / life science application
  • 73. medical instruments
  • 74. medical physics
  • 75. material science application
  • 76. electron microscope
  • 77. transmutation
  • 78. Inertial confinement fusion
  • 79. accelerator-driven reactor
  • 80. AMS(accelerator mass spectrometry)
  • 81. Laser-generated quantum beam science
  • 82. SuperKEKB・Belle II・ILC (joint session)
  • 83. Nuclear and particle physics experiments with high intensity accelerators (joint session)
  • 84. others

Division 1 (atomic and molecular physics, quantum electronics, radiation)

[For field of quantum electronics] Choose the keyword of "quantum electronics" from the first keyword group. then choose one keyword from the second keyword group. If you choose "73" or "74" from the second group, choose suitable keywords (up to two) from the third keyword group in between the number from 101 to 108. In this case, your talk will be programmed in a quantum optics/quantum information session. If you choose "75 or 76" from the second group, choose suitable keywords (up to two) from the third keyword group in between the number from 109 to 121. The keyword in the third group corresponds to the name of the session we will have. [For field of atomic and molecular physics, or field of radiation physics] Choose one keyword from the first keyword group and up to three from the second keyword group. When your first keyword is "joint session," you can choose keywords from either "field of atomic and molecular physics"or "field of radiation physics,"

    ○The first group of key words
  • 1. atomic and molecular physics
  • 2. radiation physics
  • 3. fusion session (atomic and molecular physics/radiation)
  • 4. quantum electronics
  • ○The second group of key words (field of atomic and molecular physics )
  • 11. general studies of atomic and molecular physics
  • 12. structure of atoms, molecules, and ions
  • 13. electron scattering with atoms, molecules, and ions
  • 14. positron scattering with atoms, molecules, and ions
  • 15. ion-molecule reactions
  • 16. ion scattering with atoms, molecules, and ions
  • 17. ion scattering with solid surfaces
  • 18. highly charged ions
  • 19. clusters
  • 20. exotic atoms
  • 21. instrumentation and techniques for atomic and molecular physics
  • 22. atomic, molecular, and ion spectroscopy
  • 23. few body systems
  • 24. strong light field physics
  • 25. synchrotron radiation, FEL
  • (field of radiation physics (radiation source))
  • 26. electron beam
  • 27. X-rays/gamma rays
  • 28. ion beam (excluding swift heavy ions)
  • 29. swift heavy ion/highly charged ion
  • 30. neutrons
  • 31. cluster beam/dust beam
  • 32. positron/muon/radioisotope beam
  • 33. pion/anti-proton
  • 34. laser/light
  • 35. non-ionizing radiation
  • 36. exotic radiation
  • (field of radiation physics (target))
  • 37. gas/atom/molecule
  • 38. liquid/ice
  • 39. clusters and fine particles
  • 40. metals
  • 41. semiconductors
  • 42. insulators
  • 43. glass/amorphous materials
  • 44. polymer/organic materials
  • 45. bio-molecules/bio-materials
  • 46. nano-materials
  • (field of radiation physics (physical quantity/phenomenon detected))
  • 47. stopping power and energy loss
  • 48. secondary electron emission
  • 49. secondary ion emission
  • 50. charge transfer
  • 51. cross-section
  • 52. channeling
  • 53. defects
  • 54. radiation effects/radiation damage
  • 55. atomic collisions in solids
  • 56. high-density electronic excitation effects
  • 57. ion-solid interaction
  • 58. ion-surface interactions
  • 59. ion-liquid interactions
  • 60. ion-molecule interaction
  • 61. relativistic effect
  • 62. crystal field
  • (field of radiation physics (application))
  • 63. ion beam analysis
  • 64. radiation measurement
  • 65. detector/detector materials/detection technique
  • 66. imaging
  • 67. material modification
  • 68. capillary/interaction with insulators
  • 69. experimental technique
  • 70. general radiation physics
  • 71. applications of radiation
  • 72. new technique/new phenomenon
  • (field of Quantum electronics)
  • 73. quantum optics/quantum information (theory)
  • 74. quantum optics/quantum information (experiment)
  • 75. quantum electronics theories other than those in 73
  • 76. quantum electronics experiments other than those in 74
  • ○The third group of key words (only for field of quantum electronics. Select keywords up to two in the order of priority.) [for a person who chose 73 or 74 from the second keyword group]
  • 101. quantum optics
  • 102. quantum measurement
  • 103. implementation of quantum computer/simulator
  • 104. quantum information (theory)
  • 105. superconductivity
  • 106. spin/diamond
  • 107. microcavity/hybrid quantum system
  • 108. other quantum information
  • 109. fundamental concepts
  • [for a person who chose 75 or 76 from the second keyword group]
  • 110. general quantum electronics
  • 111. lasers
  • 112. frequency standards
  • 113. optical comb/precision measurement
  • 114. spectroscopy
  • 115. ion traps
  • 116. experiments on cooling and trapping of atoms/molecules/nano particles etc.
  • 117. general theories of cold atoms/molecules/nano particles
  • 118. many-body physics in quantum degenerate gases
  • 119. few-body physics in cold atoms/molecules
  • 120. superfluids
  • 121. non-equilibrium phenomena in quantum degenerate gases
  • 122. other quantum degenerate gas system
  • [for a person who wants to give a talk at the joint session of Division 5 (Optical properties of condensed matter)]
  • 201. photonic band
  • 202. near-field optics
  • [for a person who wants to give a talk at the joint session of Division 4 (Semiconductors, Mesoscopic Systems and Quantum Transport)]
  • 201. semiconductor quantum information
  • [for a person who wants to give a talk at the joint session of Division 4, 5, and 11](The joint session will probably be held in the meeting room of Division 4.)
  • 204. non-Hermitian system

To obtain more information about the joint sessions, please check the web page of Division, that mainly organizes the joint sessions.

Division 1 Website: http://www.r1.div.jps.or.jp/index.html

Division 2 (Plasma)

Choose one keyword in each of the 1st, 2nd, and 3rd keyword groups. Your talk may be programmed in a session different from your choice in the 1st keyword group without notice in the arrangement of the entire sessions.

    ○The first group of key words (session)
  • 1. basic plasma physics
  • 2. plasma sciences (including plasma applications)
  • 3. fusion plasmas
  • 4. plasma astrophysics
  • ○The second group of key words (research subject)
  • 11. waves • heating • instabilities
  • 12. transport and confinement (including turbulence • statistical properties, etc)
  • 13. nonlinear phenomena (self-organization, chaos, turbulence, etc. )
  • 14. atomic processes • spectroscopy • plasma diagnostics
  • 15. high-energy-density physics
  • 16. strongly coupled plasmas
  • 17. plasma applications
  • 18. discharge physics, ionization • plasma production, etc.
  • 19. magnetic reconnection • particle acceleration • dynamo effects
  • 20. numerical analyses, simulations
  • 21. new trends in plasma physics
  • 22. non-equilibrium and extreme state plasma
  • 23. others
  • ○The third group of key words (research area)
  • 31. space plasmas • astronomical plasmas
  • 32. basic plasmas
  • 33. magnetic confinement fusion (toroidal systems, open systems, peripheral plasmas, including plasma-wall interactions)
  • 34. inertial confinement fusion (laser fusion, etc.)
  • 35. non-neutral plasmas, dusty plasmas and reactive plasmas
  • 36. plasma sources, ion sources
  • 37. intense-laser-produced plasmas (including relativistic plasmas, high energy photon transport)
  • 38. plasma application devices (processing, accelerators, thrusters, oscillators, etc.)
  • 39. others

Division 2 Website: http://www.r2.div.jps.or.jp/index.html [Announcements] For information on the best student presentation award, the mailing list, and organized sessions, see the Division 2 Website. If you plan to join the joint sessions, write "Joint session D" or "Joint session E" in the abstract.

Division 3 (Magnetism)

Choose one proper key word from each of the first and second groups. The first digit of the second keyword number should be equal to the first keyword number (e.g. 1 → 11). The specification of third keywords is not mandatory.

    ○The first group of key words (fields)
  • 1. nanoscale magnetism
  • 2. spintronics
  • 3. magnetism of compounds
  • 4. spin systems
  • 5. frustrated magnets
  • 6. experimental techniques
  • ○The second group of key words (details)
  • 11. surface and interface magnetism
  • 12. magnetism of thin films and superlattices
  • 13. nanoparticles magnetism
  • 21. spin current
  • 22. spin dynamics
  • 23. magnetic and spin-dependent transport
  • 24. spin texture
  • 25. spin related phenomena
  • 31. itinerant magnetism
  • 32. magnetism of d-electron systems
  • 33. magnetism of f-electron systems
  • 34. chiral magnetism
  • 35. multiferroics
  • 36. low-carrier-density ferromagnetism
  • 37. topological magnetism
  • 41. quantum spin systems (1-D)
  • 42. quantum spin systems (2-D)
  • 43. quantum spin systems (clusters)
  • 44. quantum spin systems (others)
  • 45. spin systems (classic and random systems, others)
  • 51. frustrated magnets (triangular lattice)
  • 52. frustrated magnets (kagome lattice)
  • 53. frustrated magnets (pyrochlore)
  • 54. frustrated magnets (others)
  • 61. magnetic resonances
  • 62. Others
  • ○The third group of key words (materials, phenomena, and methods)
  • 100. transition-metal oxides
  • 101. transition-metal compounds
  • 102. transition metals and alloys
  • 103. quasicrystals
  • 104. magnetic semiconductors and insulators
  • 105. rare-earth compounds and alloys
  • 106. organic magnets
  • 107. magnetic molecules and clusters
  • 108. borides and carbides
  • 109. composite materials
  • 110. artificial nanoscale magnetism
  • 111. new materials
  • 112. theory
  • 113. magnetization and magnetic susceptibilities
  • 114. magnetic anisotropy and magnetostriction
  • 115. NMR
  • 116. ESR
  • 117. neutron scattering
  • 118. thermal properties
  • 119. optical properties
  • 120. electrical properties
  • 121. magnetotransport
  • 122. photoemission spectroscopy
  • 123. X-rays and particle beams
  • 124. tunneling spectroscopy
  • 125. de Haas effects
  • 126. ultrasonics
  • 127. mSR
  • 128. Mössbauer spectroscopy
  • 129. nuclear properties
  • 130. others

Note: Oral presentations with the following keywords are assigned to the joint sessions. For the entry, please mark the corresponding checkbox. [Joint Session(s) with Division 8 (strongly correlated electron systems)] (35) multiferroics [Joint Session(s) with Division 9 (Surfaces & Interfaces, Crystal growth)] (11) surfaces and interfaces [Joint Session(s) with Division 11 (fundamental theory of condensed matter physics, statistical mechanics, fluid dynamics, applied mathematics, socio- and econophysics)] (41-44) quantum spin systems (1-D, 2-D, clusters, and others), (5) frustrated magnets

Division 3 Website: http://r3.div.jps.or.jp/ [Announcements] We are now accepting the best student presentation award at autumn meetings. For information on the activities of division 3, including the best student presentation award, the young scientist award, and the division 3 mailing list, see the Division 3 Website.

Division 4 (semiconductors, mesoscopic systems and quantum transport)

Choose a session name as Keyword 1. Next choose theory/experiment as Keyword 2. Then choose multiple keywords that you think are relevant to your presentation as Keywords 3-6. The session of your presentation will be determined based on the Keywords and Short Abstract. If you cannot find a suitable keyword, select "99" (others) and describe your keywords in your Short Abstract. You can also include requests to the committee.

    ○ Keyword 1 (session name, choose one)
  • 1. semiconductor spintronics
  • 2. quantum Hall effects
  • 3. quantum dots
  • 4. semiconductor quantum information
  • 5. mesoscopic systems (quantum wires, small junctions, and localization)
  • 6. quantum wells, superlattices, and optical responses
  • 7. graphene, beyond graphene, and Dirac electrons
  • 8. 2D or layered materials
  • 9. topological materials (insulators, superconductors, semimetals, etc.)
  • 10. non-Hermitian systems
  • ○ Keyword 2 (choose one)
  • 21. theory
  • 22. experiment
  • ○ Keywords 3-6 (multiple choice)
  • 31. magnetic semiconductors
  • 32. nuclear spins
  • 33. spin current and spin-dependent transport
  • 34. spin-orbit interaction
  • 35. integer quantum Hall effect
  • 36. fractional quantum Hall effect
  • 37. electronic correlation
  • 38. qubits and quantum information
  • 39. quantum wires and nanowires
  • 40. small junctions and mesoscopic superconductors
  • 41. Anderson localization and transition
  • 42. impurities and defects
  • 43. diffusive transport and ballistic transport
  • 44. transport phenomena
  • 45. quantum wells
  • 46. superlattices
  • 47. optical responses
  • 48. excitons
  • 49. superconductivity
  • 50. Majorana particles
  • 51. band structure
  • 52. nanotubes
  • 53. transition-metal dichalcogenides
  • 54. atomic layers and layered materials
  • 55. surface states (edge, corner, and skin effect)
  • 56. Dirac and Weyl semimetals
  • 57. new materials
  • 99. others (describe in the Short Abstract)

Note: Oral presentations with the following keywords may be assigned to the joint sessions. 4. semiconductor quantum information: Division 1. 7. graphene, beyond graphene, and Dirac electrons: Division 7. 9. topological materials (insulators, superconductors, semimetals etc.): Divisions 7, 8, and 9. 10. non-Hermitian systems: Divisions 1, 5, and 11.

Division 5 (Optical properties of condensed matter)

Choose one proper key word from each of the first, the second and the third groups. Three key words have to be selected. The program will be organized according to all key words.

    *The first group of key words (Methodology in spectroscopy)
  • 1. Theory, Calculations
  • 2. Time-resolved measurements
  • 3. Static measurements
  • 4. New light sources, New methods in spectroscopy
  • 5. Photoemission spectroscopy, Inverse-photoemission spectroscopy
  • 6. Absorption spectroscopy with synchrotron radiation, vacuum ultraviolet light, or X-ray (MCD included)
  • 7. X-ray emission spectroscopy, X-ray scattering
  • 8. Spectromicroscopy(Microspectroscopy), Near-field spectroscopy
  • *The second group of key words (Physical phenomena)
  • 11. Non-Hermitian systems, Nonreciprocity
  • 12. Optical-electric-field-driven phenomena
  • 13. Photo-induced phase transitions
  • 14. Excitons, Polaritons, Luminescence
  • 15. Strong coupling, Vacuum field
  • 16. Optical vortex, Orbital angular momentum
  • 17. Quantum entanglement
  • 18. Biology, Life phenomena
  • 19. Optical functionalities, Applied physics
  • 20. Manybody interactions, Quantum condensations
  • 21. Energy bands
  • 22. Conduction characteristics, Proton translocations
  • 23. Electronic state changes
  • 24. Molecular diffusions
  • 25. Spintronics, Magnetic excitations
  • 26. Phononics, Phonon excitations
  • 27. Plasmonics
  • 28. Nonlinear optics, Electric field enhancements
  • 29. Topology, Berry phases
  • 30. Impurities, Defects, Localized center
  • 31. Ultrafast phenomena
  • *The third group of key words (Materials)
  • 41. Semiconductors, Dielectric compounds, Insulators
  • 42. Low-dimensional materials, Fine particles, Nanocrystals, Surfaces
  • 43. Topological insulators, Weyl semimetals
  • 44. Superconductors
  • 45. Strongly correlated systems, Molecular crystals
  • 46. Magnetic compounds, Magnetic semiconductors
  • 47. Superionic conductors, Ionic conductors
  • 48. Photonic crystals, Metamaterials
  • 49. New materials
  • 50. Others

Memos : Keyword No. 13 (Photo-induced phase transitions) can be assigned to the joint session with the keyword No. 42 (photoinduced phase transitions) of Division 7 (field of molecular solids and organic conductors). For the entry, please indicate "joint session with Division 7" in the abstract. Keywords No. 48 (Photonic crystals, Metamaterials) and No. 8 (Spectromicroscopy(Microspectroscopy), Near-field spectroscopy) will be assigned respectively to the joint session with the keywords No. 201 (photonic band) and No. 202 (near-field optics) of Division 1 (field of quantum electronics). Poster session will be also organized. See D(b) and G(1) for details.

Division 5 Website: https://www.r5.div.jps.or.jp/ [Announcements] For information on Student Presentation Award of the Physical Society of Japan, see the Division 5 Website.

Division 6 (metal physics [liquid metals, quasicrystals], low temperature physics [ultralow temperatures, superconductivity, density waves)

Select keywords only from the field where you want to talk.

field of metal physics [liquid metals, quasicrystals]

Select only one keyword from Family #1. You can select another two keywords from Family #2 and #3 if necessary.

    Family #1 (substances etc.)
  • 1. liquid metals
  • 2. liquid semiconductors
  • 3. liquid mixtures
  • 4. molten salts
  • 5. molecular liquids
  • 6. ionic liquids
  • 7. amorphous solids
  • 8. intermetallic compounds
  • 9. crystals
  • 10. quasicrystals
  • 11. clusters
  • 12. modulated structure, complex structure
  • 13. quasiperiodic systems
  • 14. others
  • Family #2 (phenomena)
  • 15. static structure
  • 16. dynamic structure
  • 17. electronic structure
  • 18. electrical conduction
  • 19. thermal conduction
  • 20. diffusion
  • 21. viscosity
  • 22. relaxation phenomena
  • 23. phase transitions
  • 24. phase diagrams
  • 25. interfaces and wetting
  • 26. phase separation and critical phenomena
  • 27. self-similarity
  • 28. supercritical fluids
  • 29. magnetic properties
  • 30. superconductivity
  • 31. glass transitions
  • 32. supercooling phenomena
  • 33. metal-nonmetal transition
  • 34. others
  • Family #3 (methods)
  • 35. diffraction, (X-ray, neutron, electron)
  • 36. EXAFS
  • 37. electron microscopy
  • 38. electron spectroscopy
  • 39. Compton scattering
  • 40. positron annihilation
  • 41. X-ray absorption spectroscopy
  • 42. quasi-elastic and inelastic neutron scattering
  • 43. quasi-elastic and inelastic X-ray scattering
  • 44. small angle scattering
  • 45. mass spectrometry and mass separation
  • 46. light scattering (Raman, Brillouin, absorption)
  • 47. ultrasonic measurement
  • 48. specific heat
  • 49. density
  • 50. extreme conditions (high temperatures, high pressures, low temperatures, high magnetic fields etc. )
  • 51. development of experimental techniques
  • 52. Computer modeling and simulation
  • 53. liquid theory
  • 54. band structure calculation
  • 55. theory
  • 56. others
  • field of low temperature physics [ultra low temperatures] Select keywords up to three in the order of priority.
  • 57. restricted geometry
  • 58. low dimensional systems
  • 59. quantum solids
  • 60. quantum fluids
  • 61. electron
  • 62. He-3
  • 63. He-4
  • 64. He3-He4 mixtures
  • 65. nuclear magnetism
  • 66. vortices
  • 67. superfluid, Bose Einstein condensation
  • 68. quantum hydrodynamics
  • 69. macroscopic quantum tunneling
  • 70. low temperature physics
  • 71. low temperature techniques
  • 72. others
  • field of low temperature physics [superconductivity and density waves] Select each one keyword from each Family #1, #2, and #3. You may add one or two from the whole if necessary.

    Family #1 (fields)
  • 73. experiment on superconductivity
  • 74. theory on superconductivity
  • 75. experiment on density wave
  • 76. theory on density wave
  • 77. others
  • Family #2 (substances, structure)
  • 78. bulk materials and 3D systems
  • 79. single crystals
  • 80. thin films
  • 81. multilayer films
  • 82. 2D systems
  • 83. wires (including quantum wires) and 1D systems
  • 84. network
  • 85. topological structures
  • 86. junctions
  • 87. interfaces
  • 88. surfaces
  • 89. nanoscale structures
  • 90. mesoscopic structures
  • 91. dot structures and 0D systems
  • 92. electric double-layers
  • 93. wire materials
  • 94. atomic-layer materials
  • 95. others
  • Family #3 (research theme)
  • 96. novel superconductivity
  • 97. topological superconductivity
  • 98. odd-frequency superconductivity
  • 99. anisotropic superconductivity
  • 100. mechanism for superconductivity
  • 101. mechanism of Tc increase
  • 102. nonequilibrium systems and dynamics
  • 103. macroscopic quantum phenomena
  • 104. coexistence of competing orders
  • 105. localization and superconductor-insulator transition
  • 106. quantum phase transitions
  • 107. transport phenomena and flux flow
  • 108. Majorana fermions
  • 109. electron crystals
  • 110. vortices
  • 111. topological defects
  • 112. Josephson effect
  • 113. proximity effect
  • 114. extreme conditions
  • 115. carrier control
  • 116. self-organization
  • 117. quantum dot
  • 118. devices
  • 119. imaging
  • 120. spectroscopy
  • 121. Fermi surface effects
  • 122. SQUID technologies (including digital technologies)
  • 123. experimental techniques
  • 124. iron-based superconductors
  • 125. high-temperature superconductivity
  • 126. multi-band superconductivity
  • 127. electronic states
  • 128. fluctuations
  • 129. superconducting spintronics
  • 130. spin-orbit interaction
  • 131. phase diagram
  • 132. collective excitations
  • 133. pinning effect and critical current
  • 134. sample growth and materials development
  • 135. cryogenic detectors
  • 136. scattering and diffraction
  • 137. simulations
  • 138. computational methods
  • 139. others

Division 6 Website: http://www.r6.div.jps.or.jp/index.html [Announcements] Division 6 will offer an award for excellent oral presentations given by students. If you are a student, enter your course and year [ex. (Doctoral course, 3rd)] at the beginning of the short abstract at the registration.

Division 7 (molecular solids)

Select at least one keyword from each of the first, second and third keyword groups, but please note that the total number of selected keywords must be 6 or less. The keyword(s) from the first group should be selected carefully and put at the top of your keyword list, because this will take priority for the program arrangement.

    ○The first group of keywords (materials)
  • 1. ET (BEDT-TTF compounds and related materials)
  • 2. TMTSF/TMTTF
  • 3. metal-based organic conductors/π-d electron systems (MX4 salts, metal dmit complexes, etc.)
  • 4. metal-bridged chains/coordination polymers(MX, MMX, etc.)
  • 5. organic conductors other than those in (1)-(4) (TTF-TCNQ, novel asymmetric donor molecules, etc.)
  • 6. conductive polymers/conjugated polymers
  • 7. fullerenes
  • 8. nanotubes
  • 9. graphene and related materials (graphene, moiré materials, etc.)
  • 10. graphite
  • 11. clusters
  • 12. cage compounds/network materials (clathrate compounds, zeolite, etc.)
  • 13. surfaces and interfaces of organic materials
  • 14. LB films
  • 15. molecular magnets
  • 16. molecular solids
  • 17. new materials
  • 18. devices of molecules and molecular interfaces
  • 19. other materials
  • ○The second group of keywords (phenomena and subjects)
  • 20. SDW/CDW/spin-Peierls states
  • 21. superconductivity/anisotropic superconductivity
  • 22. electronic structure (Fermi surface/band structure, etc.)
  • 23. carrier doping/band filling
  • 24. surface/interface pi-electron systems
  • 25. molecular devices
  • 26. quantum effects
  • 27. nonlinear excitations
  • 28. strong correlation
  • 29. electron-phonon interaction/lattice vibration
  • 30. metal-insulator transition
  • 31. neutral-ionic transition
  • 32. charge ordering
  • 33. Mott transition
  • 34. Topological properties
  • 35. other phase transitions/critical phenomena
  • 36. electrical resistance/magnetoresistance/Hall effect
  • 37. nonlinear conduction
  • 38. properties under high pressure
  • 39. anisotropic deformation
  • 40. hydrostatic pressure
  • 41. magnetism
  • 42. altermagnetism
  • 43. optical properties
  • 44. photoinduced phase transitions
  • 45. structure
  • 46. thermal properties
  • 47. thermoelectric effect
  • 48. acoustic properties
  • 49. new properties
  • 50. other properties
  • ○The third group of keywords (methods of study)
  • 51. structure analysis
  • 52. transport measurements
  • 53. spectroscopy
  • 54. magnetism/magnetic resonance
  • 55. thermal measurements
  • 56. experiments (general/all)
  • 57. theories/calculations
  • 58. material developments
  • 59. FET/other molecular devices
  • 60. other methods

Note: Keyword No. (44) photoinduced phase transitions is assigned to the joint session with Division 5 (Optical properties of condensed matter). If you prefer the joint session, type "joint session with Division 5" in the abstract.

Note: For the convenience of the speakers and audience, joint session(s) with Division 9 may flexibly be set by assorting related talks.

Note: Joint session with Division 4 may be set for presentations on graphene and related topics.

Note: Presentations choosing Keywords (21) superconductivity/anisotropic superconductivity, (28) strong correlation, (30) metal-insulator transition, (33) Mott transition, (34) other phase transitions/critical phenomena, and those choosing (23) carrier doping/band filling (24) surface/interface pi-electron systems are respectively assigned to joint sessions with Division 8. Type any of the following: "a) prefer, b) do not prefer, or c) no preference for, Division 7&8 joint session", in the abstract.

Note: The presentations attaching the keyword "(34) Topological properties" or the ones on the related topics may be assigned to the joint session(s) with Division 4, 8, and 9.

Division 8 (strongly correlated electron systems)

Research fields : High-temperature cuprate superconductors, heavy fermions, transition metal oxides, etc. Note: 1. Select one keyword from each category, C1, C2, C3, and C4. 2. You can choose up to two more keywords from all categories. Example: "C1: (2); C2: (22); C3: (41); C4: (64), (74), (75)." Category and keywords:

    ○C1 : Research fields
  • 1. p electron system
  • 2. 3d electron system
  • 3. 4d, 5d electron system
  • 4. 4f electron system
  • 5. 5f electron system
  • 6. theory (talk in a theory session)
  • 7. others
  • ○C2 : Research field details
  • 11. cuprates superconductors
  • 12. iron-based superconductors
  • 13. BiS2-based superconductors
  • 14. Ce-based superconductors
  • 15. U-based superconductors
  • 16. other superconductors
  • 17. frustrated magnetism
  • 18. multiferroics
  • 19. spin liquid
  • 20. skyrmion
  • 21. other magnetism
  • 22. phase transitions and critical phenomena
  • 23. Mott transitions
  • 24. charge ordering
  • 25. orbital degrees of freedom
  • 26. strongly correlated electron devices
  • 27. heavy fermions
  • 28. multipole ordering
  • 29. valence fluctuations
  • 30. Kondo insulators
  • 31. thermoelectric materials
  • 32. phonons
  • 33. topological matter
  • 34. Cross-correlation phenomenon
  • 35. excitonic insulators
  • 36. vortex matter
  • 37. new material search
  • 38. development of instruments
  • 39. others
  • ○C3 : Materials
  • 41. titanium compounds
  • 42. vanadium compounds
  • 43. manganese compounds
  • 44. iron compounds
  • 45. cobalt compounds
  • 46. copper compounds
  • 47. ruthenium compounds
  • 48. iridium compounds
  • 49. other transition metal compounds
  • 50. pyrochlores and spinels
  • 51. carbides and borides
  • 52. organic compounds
  • 53. cage compounds
  • 54. Ce based compounds
  • 55. Pr based compounds
  • 56. Yb based compounds
  • 57. other rare earth compounds
  • 58. actinide compounds
  • 59. others
  • ○C4 : Methods, Research subjects
  • 61. theory
  • 62. magnetic resonances and Moessbauer effects
  • 63. neutron, X-ray and other beam techniques
  • 64. optical spectroscopy
  • 65. photoemission spectroscopy
  • 66. tunneling spectroscopy
  • 67. ultrasound, high-frequency, and electromagnetic measurements
  • 68. transport, magnetic, and thermal measurements
  • 69. substitution and impurity effects
  • 70. pressure effects
  • 71. magnetic field effects
  • 72. electric field effects
  • 73. pairing symmetry and mechanism of superconductivity
  • 74. pseudo-gap and spin gap
  • 75. stripes ordering
  • 76. tunnel effect and Josephson effect
  • 77. mixed states, flux line and vortex states
  • 78. GMR and CMR
  • 79. energy band and fermiology
  • 80. magnetic structures and excitations
  • 81. others

Note: Input your presentation title precisely. Follow the "JPS Format" when describing subscripts and superscripts (e.g. H_2_O, x^2^). For advanced expressions, use the LaTeX commands.

Note: Presentations attached to the following keywords can be assigned to the joint session with Division 7: (22) phase transitions and critical phenomena; (23) Mott transitions; (72) electric field effects; (73) pairing symmetry and mechanism of superconductivity. Please indicate the following in your abstract: "a) prefer, b) not prefer, or c) no preference, for the joint session of Divisions 7 & 8.

Note: Oral presentations attached to Keyword "(18) multiferroics" are assigned to the joint session with Division 3.

Note: Oral presentations attached to Keyword "(33) Topological Matter" can be assigned to joint sessions with Divisions 4,7 and 9. Please indicate the following in your abstract: "a) prefer, b) not prefer, or c) no preference, for the joint session of Divisions 4, 7, 8 & 9".

Division 9 (Surfaces & Interfaces, Crystal Growth)

Select one or two keywords from the 1st group. The sessions will be organized mainly on the basis of the 1st group. Select one keyword from the 2nd group. Multiple keywords can be chosen in the 3rd group.

    ○ 1st Keywords (Subject, One or two keywords)
  • 1. Crystal growth
  • 2. Electronic properties
  • 3. Structural properties
  • 4. Nanoscale quantum properties
  • 5. Surface physical chemistry
  • 6. Dynamics
  • 7. Magnetism of surfaces & interfaces
  • 8. Atomic-layer material science
  • 9. Topological properties
  • 10. Tribology
  • 11. Informatics
  • ○ 2nd Keywords (Method, One keyword)
  • 21. Scanning probe microscopy
  • 22. Electron microscopy/Other imaging
  • 23. Spectroscopy
  • 24. Diffraction/Scattering
  • 25. Transport
  • 26. In-situ observation/Time-resolved observation
  • 27. Mass spectrometry
  • 28. Theory/Simulation
  • 29. Machine learning
  • 30. Interdisciplinary
  • ○ 3rd Keywords (Target, Multiple keywords) (Substance/Material)
  • 41. Graphene/2D materials
  • 42. Topological materials
  • 43. Nanotubes/Nanowires
  • 44. Quantum dots/Nanoclusters
  • 45. Soft matters/Polymers
  • 46. Water/Ice
  • 47. Liquid
  • 48. Organic materials
  • 49. Metallic materials
  • 50. Semiconductor materials
  • 51. Magnetic materials
  • 52. Thermoelectric materials
  • 53. Catalyst materials
  • 54. Battery materials
  • 55. Hydrides/Hydrogen storage materials
  • 56. Electronic materials
  • 57. Spintronic materials
  • (Function/Phenomenon)
  • 71. Single atom/Single molecule manipulation
  • 72. Adsorption/Reaction/Desorption
  • 73. Molecule vibration/Phonon
  • 74. Atom/Ion diffusion
  • 75. Thin film formation/Self-organization
  • 76. Surface reconstruction
  • 77. Phase transition
  • 78. Nucleation
  • 79. Dissolution/Precipitation
  • 80. Growth control
  • 81. Photo-induced phenomena/Optical functions
  • 82. Active site
  • 83. Superconductivity
  • 84. Quantum confinement/Band control
  • 85. Spin polarization
  • 86. Bulk-edge correspondence

Note: Joint sessions with Division 3 may be held for oral presentations with Keyword (7) "Magnetism of surfaces & interfaces".

Note: Joint sessions with Divisions 4, 7 and 8 may be held for oral presentations with Keyword (9) "Topological properties".

Note: Joint sessions with other divisions will be flexibly held when they are beneficial for the presenters and audiences.

Division 10 (structural property(dielectrics, ferroelectricity,lattice defects and nanostructures, phononic properties, and X-ray and particle beams))

Select the first keyword from the first group for specifying the session where you want to give your presentation. Select at least one second keyword and one third keyword. The second keyword(s) must be from the second group of the session specified by the first keyword. You may select the third keyword(s) from the third group or from the second group of other sessions.

    ○ First group of keywords (session)
  • 1. dielectrics
  • 2. lattice defects and nanostructure
  • 3. phononic properties
  • 4. X-ray and particle beams
  • ○ Second group of keywords [dielectrics and ferroelectricity] [Materials and research subjects]
  • 5. oxides
  • 6. nitrides
  • 7. halides
  • 8. mixed-anion compounds
  • 9. perovskite-type compounds
  • 10. glasses and amorphous materials
  • 11. hydrogen-bonded compounds
  • 12. framework compounds
  • 13. van der Waals ferroelectrics
  • 14. organic ferroelectrics
  • 15. hybrid perovskite
  • 16. relaxors
  • 17. multiferroics and ferroic-ordering
  • 18. thin films and multilayered films
  • 19. other materials
  • 20. local strcuture
  • 21. order-disorder
  • 22. domains
  • [Phenomena]
  • 23. phase transition
  • 24. photo-induced property
  • 25. crtical phenomenon
  • 26. sruface and interface properties
  • 27. thermal transport phenomenon
  • 28. energy storage system
  • 29. optical effects and optical properties
  • 30. electric-field effect/electronic properties
  • [lattice defects and nanostructures]
  • 31. simulation
  • 32. metals
  • 33. semiconductors
  • 34. surface and interface
  • 35. fine particle
  • 36. dislocations and plane defects
  • 37. theories and experiments of electronic states
  • 38. point defects and radiation damages
  • 39. hydrogen
  • 40. carbon materials
  • [phononic properties]
  • 41. phonon theory
  • 42. phonon experiment
  • [X-ray and particle beams]
  • 43. X-rays
  • 44. electrons
  • 45. positrons
  • 46. neutrons
  • 47. muons
  • 48. other particle beams
  • 49. XFEL
  • 50. EUV-FEL
  • ○ Third group of keywords
  • 51. theory
  • 52. synthesis of new materials
  • 53. ceramics
  • 54. crystals
  • 55. quasicrystals
  • 56. liquid and gas
  • 57. superlattice
  • 58. incommensurate phase
  • 59. glass transition
  • 60. diffusion and relaxation phenomena
  • 61. dynamics
  • 62. physical properties of impurities
  • 63. mechanical properties
  • 64. spectroscopy
  • 65. positron annihilation
  • 66. momentum distribution
  • 67. magnetism
  • 68. ferroelectricity
  • 69. ferroelasticity
  • 70. ultrasonic waves
  • 71. nonlinear optics
  • 72. structural analysis
  • 73. hyper-ordered structures
  • 74. diffraction, scattering and interference
  • 75. imaging techniques
  • 76. microscopy
  • 77. holography
  • 78. tomography
  • 79. time-resolved measurements
  • 80. inelastic scattering
  • 81. PDF
  • 82. characterization of condensed matters
  • 83. nuclear solid state physics
  • 84. high pressures
  • 85. NMR/ESR
  • 86. instrumentation
  • 87. data analysis methods
  • 88. transport phenomena
  • 89. nano-particles
  • 90. light scattering
  • 91. dielectric dispersion
  • 92. ammonium sulfate family, TGS family
  • 93. acoustic phonon
  • 94. phonon waveguide
  • 95. phonon polariton
  • 96. anharmonicity
  • 97. lattice dynamics
  • 98. elastic constants
  • 99. mechanical resonance spectroscopy
  • 100. phononic crystals, phononic metamaterials
  • 101. nano phononics
  • 102. phonon structure
  • 103. rattling
  • 104. phonon laser
  • 105. elastic waves
  • 106. simulation
  • 107. materials informatics
  • 108. computational science
  • 109. electron-phonon coupling
  • 110. phonon-phonon coupling
  • 111. photon-phonon coupling
  • 112. spin-phonon coupling
  • 113. others

Note: If you prefer joint session between division 10 ( lattice defects and nanostructure) and division 9 (sufraces/interface, crystal growth), please choose the first keyword "(2) lattice defects and nanostructure" and specify "joint session between division 10 and 9"in your abstract. If you prefer joint session between division 10 (X-ray and particle beams) and division 1 (atomic and molecular physics), please choose the first keyword "(4) X-ray and particle beams" and specify "joint session between division 10 and 1"in your abstract.

Note: Presentations choosing Keyword (45) positron, (46) neutron, and (47) muon are assigned to the joint session with beam physics. If you prefer the joint session, please specify "joint session between division 10 and beam physics" in your abstract. Even if you don't prefer, it could be assigned to the joint session.

Note: Presentations choosing the third Keyword (73) "hyper-ordered structures" are assigned to a hyper-ordered structures session (a joint session within Division 10).

Division 11(fundamental theory of condensed matter physics, statistical mechanics, fluid dynamics, applied mathematics, socio- and econophysics)

Choose three keywords: one from the first group, one from the second, and one from the third. The sessions will be organized mainly on the basis of the first keyword, with the second and third ones taken into account when necessary. The authors should choose their keywords carefully, as an inappropriate choice may result in unintended consequences in the session organization.

(field of statistical mechanics and fundamental theory of condensed matter physics)
    ○The first group of key words (models and systems)
  • 1. spin glasses and random magnets
  • 2. classical frustrated systems
  • 3. classical spin systems in general
  • 4. quantum spin systems and boson systems
  • 5. electronic systems
  • 6. cold atoms
  • 7. quantum chaos
  • 8. foundations of quantum theory
  • 9. non-Hermitian systems (Joint session with Division 1,4, 5 available)
  • 10. other quantum mechanical systems
  • 11. neural networks (including neuron models)
  • 12. complex networks
  • 13. biological and ecological systems (Joint session with Division 12)
  • 14. social physics (including languages and game theory)
  • 15. econophysics
  • 16. statistical mechanics of information processing
  • 17. dynamical systems (conservative systems)
  • 18. reaction-diffusion systems
  • 19. oscillator systems
  • 20. active matter (Joint session with Division 12)
  • 21. dynamimcal systems (many body systems)
  • 22. stochastic processes (including percolations)
  • 23. granular materials and traffic flows
  • 24. friction and earthquakes
  • 25. quantum dynamics, quantum thermodynamics
  • 26. stochastic thermodynamics, entropy
  • 27. nonequilibrium systems (transport phenomena, phase transitions, etc.)
  • 28. classical many-body systems (thermodynamics, phase, structures, etc.)
  • 29. glassy systems (Joint session with Division 6 & 12)
  • 30. other systems
  • ○The second group of key words (phenomena)
  • 31. phase diagram and phase transitions at equilibrium
  • 32. quantum phase transitions
  • 33. entanglement
  • 34. level statistics and semiclassical theory
  • 35. relaxation, hysteresis, response and transport phenomena
  • 36. transition phenomena in nonequilibrium systems
  • 37. fluctuation in nonequilibrium systems
  • 38. nonlinear phenomena
  • 39. fractals
  • 40. empirical statistical laws (power-law, etc.)
  • 41. society and economy
  • 42. learning and associative memory
  • 43. evolution, adaptation and extinction
  • 44. image processing and optimization
  • 45. development of methods
  • 46. chaos in systems with a few degrees of freedom (including bifurcation)
  • 47. chaos in systems with many degrees of freedom
  • 48. pattern formation, fracture mechanics, self-organization, and boundary motions
  • 49. convection and turbulence
  • 50. other phenomena
  • ○The third group of key words (methods)
  • 51. exact solutions
  • 52. perturbation theory
  • 53. variational methods
  • 54. first-principles calculation
  • 55. tensor networks
  • 56. other analytical methods
  • 57. other phenomenological analysis
  • 58. numerical diagonalization
  • 59. Monte Carlo simulations
  • 60. molecular dynamics simulations
  • 61. other numerical calculations
  • 62. experiments
  • 63. data analyses and visualization
  • (field of applied mathematics, mechanics, and fluid dynamics) ○The first group of key words (models and systems)
  • 64. classical and quantum integrable systems
  • 65. discrete systems (including ultra-discrete systems and cellular automata)
  • 66. dynamical systems and related topics
  • 67. numerical algorithms
  • 68. other mathematical models
  • 69. rigid and elastic bodies
  • 70. complex fluids (including non-Newtonian, multicomponent and multiphase fluids, etc.)
  • 71. incompressible fluids
  • 72. compressible fluids and rarefied gases
  • 73. electromagnetic fluids
  • 74. thermal fluids
  • 75. geophysical and astrophysical fluids (including rotating and stratified fluids)
  • ○The second group of key words (phenomena)
  • 76. symmetry and conservation laws
  • 77. solitons
  • 78. Painleve properties
  • 79. waves (including nonlinear, acoustic and shock waves)
  • 80. turbulence
  • 81. chaos
  • 82. stability (including bifurcation and transitions)
  • 83. transport and diffusion phenomena
  • 84. self-organization (including ordered structure and pattern formation, etc.)
  • 85. creeping flows
  • 86. flows around a body or bodies
  • 87. vortex motions
  • 88. free-boundary motions (excluding wave motions)
  • ○ The third group of key words (methods)
  • 89. exact solutions and analytical approaches
  • 90. numerical simulations
  • 91. perturbation theory, approximation theory, and modeling
  • 92. experiments
  • 93. visualization

Division 12(Soft Matter Physics, Chemical Physics, Biophysics)

Select a single keyword from each of the first and second groups, and multiple choices are allowed for the third groups. The sessions will be organized according to the keyword from the first group. If the keyword 2, 3, or 4 is selected as the first keyword, select a single keyword from keywords 6〜22 and write down the number in the column for the third keyword. 

    ○1st group (Interdisciplinary)
  • 1. Supercooled liquids and glasses
  • 2. Photosynthesis and photobiology
  • 3. Simulation methods
  • 4. Biomembranes
  • 5. Active matter
  • (Soft Matter)
  • 6. Polymers
  • 7. Colloidal dispersions
  • 8. Amphiphilic molecules
  • 9. Liquid crystals
  • 10. Structure and rheology
  • 11. General (Soft matter physics)
  • (Chemical Physics)
  • 12. Quantum systems, electronic states, and chemical reactions
  • 13. Optical response and light scattering
  • 14. Solutions, liquids, and solvation
  • 15. General (Chemical physics)
  • (Biophysics)
  • 16. Biomolecules
  • 17. Cells, tissues, and organs
  • 18. Individuals and ecological systems
  • 19. Network systems
  • 20. General (Biophysics)
  • ○2nd group
  • 21. Experiment
  • 22. Theory
  • 23. Simulation
  • 24. Data analysis
  • ○3rd group
  • 25. Physical properties of solids
  • 26. Crystal growth, crystallization, and melting
  • 27. Structure and pattern formation
  • 28. Phase separation
  • 29. Phase transitions
  • 30. Liquid-liquid transitions
  • 31. Glass transitions
  • 32. Aging
  • 33. Jamming transitions
  • 34. Wetting
  • 35. Adhesion
  • 36. Fracture
  • 37. Sols and gels
  • 38. Suspension 
  • 39. Interface
  • 40. Thin films
  • 41. Biomatter
  • 42. Relaxation phenomena
  • 43. Dielectric relaxation
  • 44. Hydrogen bonding
  • 45. X-ray scattering and neutron scattering
  • 46. NMR and ESR
  • 47. Dynamic heterogeneity
  • 48. Diffusion and transport
  • 49. Collective motion
  • 50. Self-organization
  • 51. Clusters
  • 52. Nonlinearity
  • 53. Nonequilibrium
  • 54. Molecular structure
  • 55. Excited states
  • 56. Nonadiabatic transition
  • 57. Electron transfer reaction
  • 58. Proton transfer
  • 59. Photoreactions
  • 60. Folding
  • 61. Fluctuation and conformational change
  • 62. Structure and function
  • 63. Molecular motors
  • 64. Single molecule observations and manipulations
  • 65. Bioimaging
  • 66. Biomechanics
  • 67. Biological rhythms
  • 68. Biological signal transduction
  • 69. Neuron and brain
  • 70. Development and differentiation
  • 71. Metabolism and behavior
  • 72. Heredity, evolution, and origin of life
  • 73. Radiobiology
  • 74. Mathematical biology
  • 75. Mesoscale dynamics
  • 76. Molecular simulation
  • 77. Hydrodynamic simulation method
  • 78. Bioinformatics
  • 79. Microorganisms

Division 13 (physics education, history of physics, environmental physics)

Select one keyword from each of the first (research fields) and second (classification of session) groups of key words. The first keyword has to be selected.

    ○The first group of key words
  • 1. physics education
  • 2. history of physics
  • 3. environmental physics
  • ○The second group of key words ( field of physics education)
  • 4. curriculum, research and development
  • 5. teaching materials, research and development
  • 6. instructions, teaching methods and strategies
  • 7. learning theory, cognitive science in physics education
  • 8. educational assessment
  • 9. teaching activity evaluation, educational evaluation
  • 10. elementary and secondary education
  • 11. higher education
  • 12. teacher training, teacher education
  • 13. social education
  • 14. general
  • (history of physics)
  • 15. philosophy and ideas
  • 16. internal history of physics
  • 17. social history of physics
  • 18. historical documents and instruments
  • 19. others
  • (environmental physics)
  • 20. methodology, thermophysical view, statistical physical view, others
  • 21. earth system, materials cycle, life system, entropy
  • 22. energy, natural resources, ecomaterials
  • 23. electromagnetic waves, radiation, atomic energy, waste materials, environmental pollution
  • 24. environmental technology, environmental assessment, environmental policy
  • 25. environmental education, history of the environment, scientific literacy
  • 26. others
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