Materials Physics 2020
3rd International Conference on Materials Physics and Materials Science 2020
Important Dates
About Materials Physics 2020
Materials Physics 2020 highlights the theme of “Outreaching the world of Matter, Materials and its Physics“. Materials Physics 2020 is an event designed for the collaboration of the researchers, scholars, students, and educators to present and discuss the modern innovations, trends, and concerns practical challenges and solutions adopted in the concerned field. The conference covers a wide range of important sessions from the basic research to the recent innovations in Materials Physics.
Topics
Materials science, Material physicsCall for Papers
Track1 –Material Physics.
Sub tracks
Characterisation of Materials
Crystalline Materials and Diffraction
Environmental Materials
Polymer Materials
Smart Materials
Ceramic Materials
Composite Material
Track2- Condensed State Physics
Sub tracks
Superconductivity
Quantum Information Science
Nanoscience and Nanotechnology
Renewable Energy
Low Dimensional Physics
Optical spectroscopy of condensed matter systems
Plastic Electronics
Topological phases of Quantum matter
Synthesis of new Quantum materials
Biological Physics
Liquid crystals
Track 3-Solid State Physics
Sub tracks
Crystallography
Quasi Crystals
Quantum Mechanics
Electromagnetism
Strongly corelated Electronic Systems
Desorption
Diamagnetism
Electro optics
Ellipsometry
Ion-solid Interactions
Plasmonic
Para magnetism
Track 4-Super Conducting Materials.
Sub tracks.
2D superconductivity
Super Conductivity Interface Devices
Superfluidity
Surface Superconductivity
Superconductivity Applications
High temperature Superconductivity
Track 5-Semi Conductor Materials
Sub tracks
Organic Semiconductor
Photovoltaics
Semiconductor Nanostructures
Surface and Interface Physics
Physics and Application of soluble Semiconductor
Track 6-Quantum Mechanics
Sub tracks
Electron spin
Wave Mechanics
Photo Emission
Quantum phase transition
Quantum Optics
Quantized Electronic structure
Matrix Mechanics
Density Matrix
Neutron optics
Quantum Materials
Photon
Quantum communication
Track7-Nuclear Physics
Sub track
Nuclide
Electron volt
Isotone and Isotope
Magnetic confinement fusion
Magneton
Neutron diffraction
Gamma ray detection
Hadronic atom
Nuclear Orientation
Particle detector
Radio chemistry
Thermonuclear Reaction
Nuclear Explosion and Nuclear Astrophysics
Track8- Materials for Energy and Environment
Sub tracks
Basic properties of amorphous/crystalline materials
Various approaches of material tuning to increase efficiency
Emerging technologies
Hydrogen generation and storage
Green Manufacturing techniques
Biofuels/Metabolic
Track9- Magnetic Materials and Modern Applications
Sub tracks
Diluted magnetic semiconductors and defect induced magnetism
Interface magnetism
Magnetism and superconductivity
Nanocrystalline permanent magnetic materials
Spin injection and detection
Spin generation and coherence
Magnetic tunnel injection
Amorphous magnetic fibres
Spintronic materials
Ferromagnetic shape memory alloys
Track10- Nanotechnology in Material Science
Sub tracks
Nanophotonic
Nano Physics and Nano Chemistry
Nano Optoelectronics
Nano Convergence
Quantum dots
Nanodrug delivery
Graphene and carbon nanotubes.
Track11- Biophysics
Sub tracks.
Condensed matter Physics in Biotechnology
Cellular molecular Biophysics
Biophysical Mechanism
Ultralow temperatures
Topology
Magnetic and resonance Imaging
Track 12 Plasma physics
Sub tracks
Magnetic confinement fusion plasma
Beam plasmas and Inertial fusion
Low temperature and dusty plasmas
Basic, space and Astrophysical plasma
Plasma Diagnostics
Track13- Electronic Material
Sub tracks
Metamaterials and Materials for THz, Plasmonic and Polaritons
Epitaxial Materials and Devices
Computational Electronic Materials
Phase Change Materials
Contacts to Semiconductor Epilayers, Nanostructures and Organic Films
Narrow Bandgap Materials and Devices
Materials for Memory and Computation
Transparent Conductors
Materials Integration
Point Defects, Doping and Extended Defects
Track 14 Spintronic Materials
Sub tracks
Intrinsic spin
Magneto electronics.
Spin Relaxation
The Quantum Mechanics of Spin
The Bloch Sphere & Spin Transport in Solids
Quantum Computing with Spins
Evolution of a Spinor on the Bloch Sphere
Spin Orbit Interaction
Track 15-Advanced Materials
Sub track
Electro Active materials
Cement replacement Materials
Advanced Aerospace materials
Claytronic
Issues in Material development
Materials for advance packaging
Track 16 Emerging smart materials and structures
Sub tracks
Emerging Technologies in materials science
Metamaterials
Semiconductors and superconductors
Smart materials in drug delivery systems
Sensors and smart structures technologies for Civil, Mechanical, and Aerospace systems
Electrochromic materials
Composite material
Smart Robots
Smart biomaterials Novel nano and micro-devices
Conductive polymers
Sensing and actuation
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