Sessions
- Symposium
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- [Open Symposium] Applied Physics: An essential field in the effort against COVID-19
- [Open Symposium] Semiconductors Essential to Accelerating DX Technology in "With Corona" Era
- [Open Symposium] Let's make the field of applied physics shine in the transition period of society
- [Open Symposium] Physics Education and Human Resource Development under the novel Corona-Virus Disease
- Forefront and prospects of ion beam analysis
- Quantum Computing: Status and Outlook
- Research progress on laser induced periodic surface structure
- Frontier of Photonics and Computing
- Novel photonics using quantum materials and terahertz-infrared electric fields
- Next Stage of Nanoprobe Life Science Research by Innovative Scanning Probe Microscopy
- Current status and future prospects of solid quantum sensors
- Encouragement for practical material researches with combined use of quantum beams -Would you like to use new quantum beams?-
- Progresses and future on EUV and soft x-ray imaging techniques
- Next Giant Leap with Plasma Electronics in New Normal Era
- Frontier of quantum technologies based on spin physics - from quantum device to novel material researches-
- Expansion of solar energy application and applied physics led by multinary compounds
- Engineering Crystal Habit: Toward a new crystal science designed by controlling polymorphism and microstructure
- Power device technology trends and future prospects
- [Open Symposium] Technological Evolution of Advanced Mobility and Power Electronics
- Materials Science and Advanced Electronics Created by Singularity
- Start up of "Module Science": Comparison of Packaging Technologies of Various Semiconductor Devices
- Progress and future prospects in phase change memory materials
- New development of power generation material research for IoT promoting DX in the new normal era
- Progress and future prospects of graphene research~10 years since receiving the Nobel Prize in Physics~
- Materials innocvation by informatics and robotics
- [Open Symposium] A Paradigm Shift to Post-Moore for AI/IoT era
- FS Focused Session "AI Electronics"
- 1 Interdisciplinary Physics and Related Areas of Science and Technology
- ※Code-sharing Session: 2.4 & 7.5 2 Ionizing Radiation
- ※Code-sharing Session: 3.5 & 3.14, 3.11 & 3.12, 3.11 & 3.13 3 Optics and Photonics
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- 3.1 Basic optics and frontier of optics
- 3.2 Equipment optics and materials
- 3.3 Information photonics and image engineering
- 3.4 Biomedical optics
- 3.5 Laser system and materials
- 3.6 Ultrashort-pulse and high-intensity lasers
- 3.7 Laser processing
- 3.8 Optical measurement, instrumentation, and sensor
- 3.9 Terahertz technologies
- 3.10 Optical quantum physics and technologies
- 3.11 Photonic structures and phenomena
- 3.12 Nanoscale optical science and near-field optics
- 3.13 Semiconductor optical devices
- 3.14 Optical control devices and optical fibers
- 3.15 Silicon photonics and integrated photonics
- 3.16 Optics and Photonics English Session
- 【CS.2】 Code-sharing Session of 3.5 & 3.14
- 【CS.3】 Code-sharing Session of 3.11 & 3.12
- 【CS.4】 Code-sharing Session of 3.11 & 3.13
- ※Code-sharing Session: 6.1 & 13.3 & 13.5, 6.5 & 7.6 6 Thin Films and Surfaces
- ※Code-sharing Session: 2.4 & 7.5, 6.5 & 7.6 7 Beam Technology and Nanofabrication
- ※Code-sharing Session: 8.3 & 9.2 & 13.6 8 Plasma Electronics
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- 8 Plasma Electronics(Poster)
- 8.1 Plasma production and diagnostics
- 8.2 Plasma deposition of thin film, plasma etching and surface treatment
- 8.3 Plasma nanotechnology
- 8.4 Plasma life sciences
- 8.5 Plasma phenomena, emerging area of plasmas and their new applications
- 8.6 Plasma Electronics English Session
- 8.8 Division of Plasma Electronics 30th Anniversary Special Session
- 【CS.7】 Code-sharing Session of 8.3 & 9.2 & 13.6
- ※Code-sharing Session: 8.3 & 9.2 & 13.6 9 Applied Materials Science
- 10 Spintronics and Magnetics
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- 10 Spintronics and Magnetics(Poster)
- 10.1 Emerging materials in spintronics and magnetics (including fabrication and characterization methodologies)
- 10.2 Fundamental and exploratory device technologies for spin
- 10.3 Spin devices, magnetic memories and storages
- 10.4 Semiconductor spintronics, superconductor, multiferroics
- 10.5 Application of magnetic field
- 11 Superconductivity
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- 11 Superconductivity(Poster)
- 11.1 Fundamental properties
- 11.2 Thin and thick superconducting films, coated conductors and film crystal growth
- 11.3 Critical Current, Superconducting Power Applications
- 11.4 Analog applications and their related technologies
- 11.5 Junction and circuit fabrication process, digital applications
- 12 Organic Molecules and Bioelectronics
- ※Code-sharing Session: 6.1 & 13.3 & 13.5, 8.3 & 9.2 & 13.6 13 Semiconductors
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- 13.1 Fundamental properties, surface and interface, and simulations of Si related materials
- 13.2 Exploratory Materials, Physical Properties, Devices
- 13.3 Insulator technology
- 13.4 Si processing /Si based thin film / MEMS / Equipment technology
- 13.5 Semiconductor devices/ Interconnect/ Integration technologies
- 13.6 Nanostructures, quantum phenomena, and nano quantum devices
- 13.7 Compound and power electron devices and process technology
- 13.8 Optical properties and light-emitting devices
- 13.9 Compound solar cells
- 【CS.5】 Code-sharing Session of 6.1 & 13.3 & 13.5
- 【CS.7】 Code-sharing Session of 8.3 & 9.2 & 13.6
- 15 Crystal Engineering
- 16 Amorphous and Microcrystalline Materials
- 17 Nanocarbon Technology
- 21 Joint Session K "Wide bandgap oxide semiconductor materials and devices"
- 22 Joint Session M "Phonon Engineering"
- 23 Joint Session N "Informatics"
- CS Code-sharing session
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- 【CS.1】 Code-sharing Session of 2.4 & 7.5
- 【CS.2】 Code-sharing Session of 3.5 & 3.14
- 【CS.3】 Code-sharing Session of 3.11 & 3.12
- 【CS.4】 Code-sharing Session of 3.11 & 3.13
- 【CS.5】 Code-sharing Session of 6.1 & 13.3 & 13.5
- 【CS.6】 Code-sharing Session of 6.5 & 7.6
- 【CS.7】 Code-sharing Session of 8.3 & 9.2 & 13.6
- Tutorial
- Others