Workshop Details
Enhanced Functionalities in 4 and 5d Containing Material from Large Spin-Orbit Coupling
06/14/2015 - 06/18/2015
Meeting Description:

The physics and chemistry of heavy elements, principally lanthanides and 5d transition metals, is distinguished by strong spin-orbit coupling, which can have a dramatic effect on materials properties. The scientific understanding of spin-orbit coupling in 5d atoms is especially challenging and rewarding because the 5d orbitals become involved in partially covalent bonds with neighboring anions. Interest in 4 and 5d oxides, chalcogenides, and pnictides has blossomed in recent years in response to scientific advances and applications in the areas of hard magnets, topological insulators, multiferroics, superconductors, and thermoelectrics. An in-depth comparison between theory and experiment has, however, been missing, and new cross-disciplinary theoretical- computational-experimental collaborations are needed to advance this field.

The program of the proposed workshop will focus on understanding how spin-orbit coupling enhances functionality in compounds containing 5d ions. Specifically, we wish to clarify how properties depend on control parameters such as strength of spin-orbit coupling, d-shell filling, dimensionality, structural distortions, and mixing of 3d and 5d ions for greater chemical flexibility. We will also seek to identify the key factors needed to develop materials with strong magnetocrystalline anisotropy, interesting topological properties, novel charge/orbital order or superconductor pairing mechanisms, and giant magnetoelectric, multiferroic, or magneto-optic effects. The workshop will include theorists, computational scientists, and experimentalists working actively on these topics. The recent discovery of novel charge density wave transitions and high temperature polymerization in IrTe2 is particularly well-suited for discussion and even a public lecture in the town of Telluride.


If you are interested in attending a meeting, but have not received an invitation, please contact the workshop organizer about availability before registering. Most TSRC meetings are very small, typically only about 25 people.

Meeting Venue:

Telluride Elementary School
447 West Columbia Avenue Telluride, CO 81435

Enhanced Functionalities in 4 and 5d Containing Material from Large Spin-Orbit Coupling Registered Meeting Participants:
Participant Organization
Agosta, Charles Clark University
Analytis, James university of california berkeley
Blundell, Stephen University of Oxford
Cao, Gang University of Kentucky
Cheong, Sang-Wook Rutgers University
Haskel, Daniel Argonne National Laboratory
Hebard, Arthur University of Florida
Heine, Thomas Jacobs University Bremen
Hong, Ziruo UCLA
Kaul, Ribhu University of Kentucky
Kee, Hae-Young University of Toronto
Khomskii, Daniil II. Physikalisches Institut,Cologne University
Kiryukhin, Valery Rutgers University
Kumar, Pradeep University of Florida
Lynn, Jeffrey National Institute of Standards and Technology
Mandrus, David University of Tennessee
Musfeldt, Janice University of Tennessee
Nagler, Stephen Oak Ridge National Laboratory
Pasupathy, Abhay Columbia University
Schwarz, Udo Yale University
Shen, Kyle Cornell University
Takagi, Hidenori University of Tokyo
Vanderbilt, David Rugters University
Yeom, Han Woong Institure for Basic Science
Zapf, Vivien Los Alamos National Lab

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