Month: November 2022

Seminar 11/30: Avadh Saxena (LANL)

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Hopfions in Condensed Matter: Anisotropic Heisenberg Magnets

– 11/30 – 2:00pm – S117 –

 

Abstract:

Nontrivial topological defects such as knotted solitons called hopfions have been observed in a variety of materials including chiral magnets, nematic liquid crystals and even in ferroelectrics as well as studied in other physical contexts such as Bose-Einstein condensates.  These topological entities can be modeled using the relevant physical variable, e.g., magnetization, polarization or the director field.  Specifically, we find exact static soliton solutions for the unit spin vector field of an inhomogeneous, anisotropic three-dimensional (3D) Heisenberg ferromagnet and calculate the corresponding Hopf invariant H analytically and obtain an integer, demonstrating that these solitons are indeed hopfions [1]. H is a product of two integers, the first being the usual winding number of a skyrmion in two dimensions, while the second encodes the periodicity in the third dimension. We also study the underlying geometry of H, by mapping the 3D unit vector field to tangent vectors of three appropriately defined space curves. Our analysis shows that a certain intrinsic twist is necessary to yield a nontrivial topological invariant (linking number). Finally, we focus on the formation energy of hopfions to study their properties for potential applications.  

[1] R. Balakrishnan, R. Dandoloff, and A. Saxena, arXiv:2202.07195  

Short bio: Avadh Saxena is Group Leader of the Condensed Matter and Complex Systems group (T-4) at Los Alamos National Lab, New Mexico, USA where he has been since 1990.  He is also an affiliate of the Center for Nonlinear Studies at Los Alamos. His main research interests include phase transitions, optical, electronic, vibrational, transport and magnetic properties of functional materials, device physics, soft condensed matter, non-Hermitian quantum mechanics, geometry, topology and nonlinear phenomena/materials harboring topological defects such as solitons, polarons, excitons and breathers. He is an Affiliate Professor at the Royal Institute of Technology (KTH), Stockholm, Sweden and holds adjunct professor positions at the University of Barcelona, Spain, Virginia Tech and the University of Arizona, Tucson. He is Scientific Advisor to National Institute for Materials Science (NIMS), Tsukuba, Japan. He is a Fellow of Los Alamos National Lab, a Fellow of the American Physical Society (APS), and a member of the Sigma Xi Scientific Research Society, APS and American Ceramic Society (ACerS). Contact him at: avadh@lanl.gov  

 

Quantum Matter Conference Announcement

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Quantum Matter: Dynamics and Sensors

Sponsored and Hosted by the University of Connecticut, Nordic Institute for Theoretical Physics, and the University of North Florida

December 19 – 22, 2022

Venue: Innovation Partnership Building | UConn Tech Park

See conference website for more details and registration.

 

Quantum matter and materials have grown to be an active area of modern condensed matter. Fascinating properties of quantum materials might lead to technological applications such as spintronics, quantum technologies and quantum sensors. The combination of new materials discoveries and development of new probes of quantum matter has helped shape these topics into an exciting area. Recent dynamic and pumped probe experiments reveal a strong promise of Dynamic Quantum Matter as a new research direction. We strive to measure, understand and predict transient correlations and coherences in quantum materials upon different driving conditions. Therefore, we introduce it as a new topic of this year’s quantum matter conference. We seek to have an active discussion on hidden, entangled and dynamic orders that emerge in quantum matter and the potential applications beyond it.

Main focus for this upcoming conference will be on the modeling and experimental observations of Quantum Matter. Overall, the goal of this workshop is to bring together researchers to discuss and highlight emerging topics and develop ideas for future research.

Scope: Dynamics in Quantum Matter, Dark Matter and Quantum Sensors, Correlated systems, and topics including spin transport, superconductivity, and non-equilibrium dynamics.

Covid 19: Conference is planned to be in person with few talks done remotely. We continue to access the situation.