Introduction
Area: Physics, Earth and Materials Sciences
Physics
Physical and Chemical Processes in Earth Systems
Materials Sciences
Physics
Condensed Matter Physics
Many-body Theory of Ultracold Matter
Superconductivity at the Nanoscale: Theory, Simulations, and Experiments
Theory of Electron-hole Superfluidity in Graphene Devices
BCS-BEC Crossover in Multicomponent Superfluids and Superconductors
Experimental Physics
Matter under extreme conditions
Physics of Surfaces, Interfaces and Nanosized Systems
Physics, Astrophysics, and Cosmology with Gravitational Waves
Soft Matter, Glasses, Liquids, and Liquid Solutions
Synchrotron Radiation and Advanced Radiation Sources
Physics Education
Theoretical and Computational Physics
Active Matter, Brownian Motion, Bacterial Motion
Computer Simulations for Molecular Modeling and Spectroscopy
Soft Matter, Clustering, Non-equilibrium Physics, Transport Properties
Physical and Chemical Processes in Earth Systems
Crustal Processes
Earthquakes
Faults and Fractures
Fluid Flow
Natural Hazards and Risk Reduction
Sedimentary Basins
Tectonics
Earth Surface Processes
Climatology
Geo-Archeology
Geomorphology
Hydrogeology
Neo-tectonics
High Pressure-Temperature Processes
Crystallization Kinetics
Mineral and Melt Structures
Volcanism and Magmatic Volatiles
Waste Recycling
Geoscience Education
Materials Sciences
Manufacturing and processing materials
Materials for Energy Harvesting and Storage
Materials Upcycled from Waste
Metals, Alloys, and Superconductors
Advanced material characterization
Fine-analysis of Materials for Cultural Heritage
Application of Synchrotron Radiation Techniques to Advanced Materials
Transport, Electron and Structural Properties of Superconductors
Materials under Extreme Conditions
Composites and hybrid materials
Biomaterials and Biocompatible Materials
Nanomaterials
Oxides and Composites for Electrodes and Devices
