The Magnetic Interfaces and Nanostructures Division (MIND) is soliciting abstracts on Advanced Magnetic Materials focusing on interfacially driven magnetic effects and phenomena in low-dimensional structures. The program will include areas of magnetism from fundamental science to future applications. The program will feature a special session on “Emergent magnetism at molecular interfaces, chirality induced spin selectivity, molecular magnetoresistance.” In addition, we will select the best graduate student presentation from finalists for the Leo Falicov Award and will also offer an award for postdoctoral fellows who will be presenting papers at the MIND sessions. The winners of both awards will be announced towards the end of the meeting.
Areas of Interest:
- Advanced Magnetic Materials in Low-Dimensional Structures
- Magnetism and electronic interactions
- Emerging ferromagnetism, Epitaxially strained atomic layers and heterostructures, Anisotropy
- Magneto transport, Anomalous Hall Effect, Rashba Effect
- Emergent Magnetism at Molecular Interfaces, Chirality-Induced Spin Selectivity and Molecular Magnetoresistance
- Magnetism at molecular interfaces
- Chirality-induced spin selectivity: natural spin filter offering potential for spintronics, chemical sensing, and understanding biological processes, with mechanisms involving spin-orbit coupling-orbit within the chiral structure
- Molecular magnetoresistance: next-gen spintronic devices, arising from spin-dependent electron transport, orbital effects, and spin interactions at molecule-metal interfaces
MI1: Advanced Magnetic Materials in Low-Dimensional Structures
Invited Speakers:
- Bharat Jalan, University of Minnesota
- John Xiao, University of Delaware”
- Ming Yi, Rice University
MI2: Emergent Magnetism at Molecular Interfaces, Chirality-Induced Spin Selectivity, Molecular Magnetoresistance
Invited Speakers:
- Matthew Beard, National Laboratory of the Rockies
- Ismael Diez-Perez, King’s College London, UK, “Spin-Dependent Charge Transport in Individual Chiral Peptide Sequences”
- Furkan Ozturk, Caltech, “Electron Spin, Chiral Symmetry Breaking, and Life’s Homochirality”
MI3: Magnetic Interfaces and Nanostructures Poster Session