Sessions
- [Open Symposium] Wide-Bandgap Semiconductors for the Future: Scientific Progress and Societal Impact
- [Open Symposium] Toward University Admissions Where Talent Can Bloom: The Future of Science and Higher Education in Japan
- [Open Symposium] Future Vision of Space and Semiconductors Conveyed to Generation Z - Networking for Creativity from JSAP
- [Open Symposium] Attention Job Seeking Students! Next-Gen Minds: At the Cutting Edge of the Semiconductor Industry
- [Open Symposium] Towards the Ideal MICE Venue for Academic Conferences - Exploring Infrastructure Needs
- Korea-Japan Applied Physics Symposium "quantum materials & devices and advanced semiconductors"
- Fusion of Mathematical, Material, and Physiological Approaches to Brain Information Processing: The Frontier of Neuromorphic and Neural Function Integration
- Lab to Fab: Accelerating R&D to Mass Production via Semiconductor DX
- Detection of extremely faint electric field signals supports our cultural society
- Current Status of Water Electrolysis and Electrochemical CO2 Reduction
- Muons Pioneering Science and Technology
- State-of-the art optical science opening up the frontier of earth-like exoplanet exploration
- Science of Water through Photonics
- Recent progress in atomic/nano-scale electronic states measurement using scanning probe microscopy
- Control of surface and interface reactions/growth for functional materials
- The cutting edge of charged particle beam for nanotechnology
- Cutting-edge research using light in a wide wavelength range -from X-rays to terahertz-
- Advances in Soft X-ray Multilayer Optics for Short-Wavelength Beyond EUV Lithography
- Plasma-Catalyzed Reactions: New Frontiers in Material Transformation
- Atomic Layer Process (ALP) analysis and application technologies (2)
- Challenges of new thermal energy conversion methods generating electricity from heat flow
- Structure-induced novel spintronics phenomena
- Frontier of flexible and stretchable electronics 2
- Interplay between experiments and molecular simulations in the field of nanobiotechnology
- Fabrication Techniques and Structural Control of Organic Materials for Next-Generation Devices
- Frontiers in Biodevice Science for Space Development
- Cellular control by external stimulations: From stimulation transfer to expression of regulatory effects
- Perovskite, Compounds, and Silicon: Current Status and Future Prospects of Tandem Solar Cells
- [Open Symposium] Cutting-edge logic semiconductors and associated technologies
- Advances in Light and Heat Coupling: From Interaction to Functional Control
- Frontiers of Mechanical Behavior in Heterogeneous and Random Materials: Cross-Material Integration and Emerging Insights
- 2D material quantum electronics
- Future of informatics applications - Global trends, interdisciplinary collaboration, and new challenges -
- 1 Interdisciplinary Physics and Related Areas of Science and Technology (Poster)
- 1.1 Interdisciplinary and General Physics
- 1.2 Education
- 1.3 Novel technologies and interdisciplinary engineering
- 1.4 Energy conversion, storage, resources and environment
- 1.5 Instrumentation, measurement and Metrology
- 1.6 Ultrasonics
- 2 Ionizing Radiation (Poster)
- 2.1 Radiation physics, Material development and characteristic evaluation
- 2.2 Radiation generators, Detector development, Measurement technology
- 2.4 Life Sciences, Medical applications, Space and Earth Environment, Radiation Education
- Code-sharing Session【CS.1】Code-sharing Session of 2.3&7.4
- 3.1 Basic optics and frontier of optics
- 3.2 Information photonics and image engineering
- 3.3 Biomedical optics
- 3.4 Laser system and materials
- 3.5 Ultrashort-pulse and high-intensity lasers
- 3.6 Laser processing
- 3.7 Optical measurement, instrumentation, and sensor
- 3.8 Terahertz technologies
- 3.9 Optical quantum physics and technologies
- 3.10 Photonic structures and phenomena
- 3.11 Nanoscale optical science and near-field optics
- 3.12 Semiconductor optical devices
- 3.13 Silicon photonics, Photonics-electronics convergence, Optical control
- Code-sharing Session【CS.2】Code-sharing session of 3.2&4.4
- Code-sharing Session【CS.3】Code-sharing Session of 3.5&3.7
- Code-sharing Session【CS.4】Code-sharing session of 3.8&3.11
- Code-sharing Session【CS.5】Code-sharing session of 3.10&3.13
- 4.1 Plasmonics and Nanophotonics
- 4.2 Photonics Devices, Photonic Integrated Circuit and Silicon Photonics
- 4.3 Laser sources and Laser applications
- 4.6 Terahertz Photonics
- 4.7 Quantum Optics, Nonlinear Optics and Structured Optics
- Code-sharing Session【CS.2】Code-sharing session of 3.2&4.4
- Code-sharing Session【CS.6】Code-sharing session of 4.5&17
- 6.1 Ferroelectric thin films
- 6.2 Carbon-based thin films
- 6.3 Oxide electronics
- 6.4 Thin films and New materials
- 6.5 Surface Physics, Vacuum
- 6.6 Probe Microscopy
- Code-sharing Session【CS.7】Code-sharing session of 6.1&13.3&13.5
- Code-sharing Session【CS.8】Code-sharing session of 6.2&KS1
- Code-sharing Session【CS.9】Code-sharing session of 6.5&7.5
- Code-sharing Session【CS.10】Code-sharing session of 6.6 &12.2
- 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
- 8.7 Plasma Electronics Invited Talk
- 8.8 Plasma Electronics Division Award Speech
- 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 Spintronics in semiconductor, topological material, superconductor, and multiferroics
- 10.5 Application of magnetic field
- 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
- 12.1 Fabrications and Structure Controls
- 12.2 Characterization and Materials Physics
- 12.3 Functional Materials and Novel Devices
- 12.4 Organic light-emitting devices and organic transistors
- 12.5 Organic and hybrid solar cells
- 12.6 Nanobiotechnology
- 12.7 Biomedical Engineering and Biochips
- 12.8 Specific theme: Photoelectric Properties, Device Fabrication and Structural Controls of Organic-Inorganic Hybrid Perovskites
- Code-sharing Session【CS.10】Code-sharing session of 6.6 &12.2
- Code-sharing Session【CS.11】Code-sharing session of 12.6&12.7
- 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 devices, process technology and characterization
- 13.8 Optical properties and light-emitting devices
- 13.9 Compound solar cells
- Code-sharing Session【CS.7】Code-sharing session of 6.1&13.3&13.5
- 【CS.1】Code-sharing Session of 2.3&7.4
- 【CS.2】Code-sharing session of 3.2&4.4
- 【CS.3】Code-sharing Session of 3.5&3.7
- 【CS.4】Code-sharing session of 3.8&3.11
- 【CS.5】Code-sharing session of 3.10&3.13
- 【CS.6】Code-sharing session of 4.5&17
- 【CS.7】Code-sharing session of 6.1&13.3&13.5
- 【CS.8】Code-sharing session of 6.2&KS1
- 【CS.9】Code-sharing session of 6.5&7.5
- 【CS.10】Code-sharing session of 6.6 &12.2
- 【CS.11】Code-sharing session of 12.6&12.7