Advances in Highly Correlated Systems

1. Dynamical mean field theory: Application to the strongly correlated materials 2. Multiferroics perspectives on strain, structure and properties 3. Electronic and spintronic devices using strongly correlated two dimensional semiconducting transition materials 4. Highly correlated systems associated with magnetoelectricity in multiferroics 5. Topological aspects of strongly correlated systems 6. Atomic Dynamics and Structural Phase Transitions in Perovskite and Multiferroic Compounds using Inelastic Neutron Scattering and Ab-Initio Calculation 7. Strongly Correlated Doped Graphene Systems-Synthesis, Electronic properties and Applications 8. Coupling of Electrostatic Ion Cyclotron And Ion Acoustic Waves in a Five Component Cometary Plasma 9. Materials for strongly correlated systems 10. Synthesis of selected strongly correlated multiferroic systems 11. An Introduction to Strongly correlated Multiferroic Core-Shell Nanoparticles: synthesis, characterization and Applications 12. Quantum Magnetism and Frustration 13. Magneto-Electric Multiferroics: A Promising Highly Correlated System 14. Strongly Correlated system of Materials: Modeling challenges and Exciting Phenomena 15. Density Functional Theory Calculations of the Electronic Structure and Sensing Applications of Strongly Correlated Materials 16. Strongly Correlated 2D Materials