Location: Max-Planck-Institut für Mikrostrukturphysik, Weinberg 2, 06120 Halle (Saale)
Addressing the future needs of computing and energy will require radical advances in materials. This workshop will explore the latest theoretical advances in understanding and predicting novel phenomena, such as effects that exhibit extraordinary quantum, electronic, magnetic, optical, topological, or emergent properties, that can lead to transformational materials for computing and energy. [more]
Addressing the future needs of computing and energy will require radical advances in materials. This workshop will explore the latest theoretical advances in understanding and predicting novel phenomena, such as effects that exhibit extraordinary quantum, electronic, magnetic, optical, topological, or emergent properties, that can lead to transformational materials for computing and energy. [more]
Addressing the future needs of computing and energy will require radical advances in materials. This workshop will explore the latest theoretical advances in understanding and predicting novel phenomena, such as effects that exhibit extraordinary quantum, electronic, magnetic, optical, topological, or emergent properties, that can lead to transformational materials for computing and energy. [more]

First principles modeling of oxides and their heterostructures

Seminar

The crystal Hall effect and topological spintronics in antiferromagnets

Beyond! Distinguished Lecture

Skyrmion formation and enhanced emergent electrodynamics in centrosymmetric magnets

Seminar

Spinel ferrite thin films and heterostructures for spintronics

Seminar

Ferromagnetic domain wall as a nonreciprocal string

Seminar

Mini-Symposium on Spintronics and 2D Materials

Symposium
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