i-ReAD MAGMA 24
Note: Online registration is mandatory for all the participants.
Note: Online registration is mandatory for all the participants.
Note: Online registration is mandatory for all the participants.
About i-ReAD MAGMA 24
The i-ReAD MAGMA 24 workshop aims to bring together researchers, scientists, and industry professionals working in the field of magnetism and magnetic materials. Participants will have the opportunity to exchange knowledge, discuss recent developments, and explore collaborative opportunities. The workshop spans various domains, making it relevant for undergraduates, postgraduates, Ph.D. scholars, and faculty members alike.
VIT-AP University is proud to host the i-ReAD MAGMA 24 workshop. Join us in this collaborative event to exchange ideas, foster innovation, and shape the future of magnetic research.
VIT-AP University
Apply Knowledge. Improve Life!
Event Details
- Abstract submission opens September 1, 2024
- Abstract submission closes
October 10, 2024
October 31 (Extended date) - Acceptance notification
October 15, 2024
November 5 (Extended date) - Early bird registration closes
October 30, 2024
November 10 (Extended date) - Register Here
Key Topics
Fundamentals of magnetism
Fundamentals of magnetism explores the basic principles and phenomena of magnetism, including magnetic fields, forces, and materials.
- Skyrmions
- Strongly correlated electron systems
- Frustrated magnetism
- Topological insulators
- Spintronics
Functional materials
Functional materials focus on advanced materials with unique properties and applications, including multiferroics, the magnetoelectric effect, magnetocaloric materials for cooling technologies, and ferrofluids.
- Multiferroics
- Magnetoelectric effect and applications
- Magnetic cooling technologies: Magnetocaloric materials
- Ferrofluids
Applied magnetism
Applied magnetism explores the use of magnetic materials and phenomena in practical applications, including magnetic hyperthermia for cancer therapy, energy storage and devices, advanced recording technologies, MRI, biotechnology, energy harvesting, and battery enhancements.
- Magnetic hyperthermia and cancer therapy
- Magnetic materials for energy and devices
- Giant magnetoresistance, Tunnel magnetoresistance
- High-Density magnetic recording technologies
- Magnetic resonance imaging (MRI)
- Magnetic particles in biotechnology and medicine
- Magnetic field-Based energy harvesting
- Magnetic enhancements in battery technologies
Design and Synthesis of Magnetic Materials
Design and Synthesis of Magnetic Materials focuses on creating and developing magnetic nanoparticles, crystals, alloys, composites, soft and hard magnetic materials, and permanent magnets for diverse applications.
- Magnetic nanoparticles
- Magnetic crystals, alloys, composites
- Soft and hard magnetic materials
- Permanent magnets
- Diluted Magnetic Semiconductors
- Magnetic Nanaparticles for recoverable photo catalysis
Theoretical Methods and Techniques in magnetism
Theoretical Methods and Techniques in magnetism explore computational tools like DFT and Monte Carlo methods, along with advancements in quantum computation to understand and predict magnetic properties and behaviors.
- Computational tools (DFT, Monte-Carlo, etc)
- Quantum Computation
Program highlights
Program highlights include invited talks by renowned experts and a range of oral presentations, offering insights into the latest research and developments in the field."
- Invited talks by renowned experts
- Oral presentations
