| Hans Huebl, Christopher D. Nugroho, Andrea Morello, Christopher C. Escott, Mark A. Eriksson, Changyi Yang, David N. Jamieson, Robert G. Clark, and Andrew S. Dzurak
Aluminum nitride (AlN) is an emerging material for integrated quantum photonics due to its large χ(2) nonlinearity. Here we demonstrate the hybrid integration of AlN on silicon nitride (SiN) photonic
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
For approximately 10 years, superconducting quantum circuits printed on silicon chips are used to study the fundamental laws of quantum mechanics. Two prototypical examples for such circuits are
Christoph Zollitsch was member of the Gross group at WMI as a Master and Ph.D. Student between 2011 and 2015.
Master Thesis: Ferromagnetic Resonance at Low Temperatures (2011) Ph.D. Thesis: Single
| Kepesidis, K. V. and Lemonde, M. -A. and Norambuena, A. and Maze, J. R. and Rabl, P.
Broadband electron spin resonance spectroscopy of 170Erbium spins in Silicon
Silicon-based devices are deeply integrated into our todays information and communication technology. Therefore, silicon
Broadband electron spin resonance spectroscopy of 167Erbium spins in Silicon
Silicon-based devices are deeply integrated into our todays information and communication technology. Therefore, silicon
Manuel Müller was member of the Gross group at WMI as a Master and Ph.D. Student between 2020 and 2023. Master Thesis: Superconductor/Ferromagnet Heterostructures for Superconducting
| A. J. Berger, E. R. J. Edwards, H. T. Nembach, A. D. Karenowska, M. Weiler, and T. J. Silva
| A. J. Berger, E. R. J. Edwards, H. T. Nembach, O. Karis, M. Weiler, and T. J. Silva
| M Baur and A Fedorov and L Steffen and S Filipp and M P da Silva and A Wallraff
Superconducting circuits have been successfully established as systems to prepare and investigate microwave light fields at the quantum level. In contrast to optical experiments where light is
At optical frequencies the radiation produced by a source, such as a laser, a black body or a single-photon emitter, is frequently characterized by analysing the temporal correlations of emitted
| B. Botka, M.E. Füstös, G. Klupp, D. Kocsis, E. Székely, M. Utczás, B. Simándi, Á. Botos, R. Hackl, K. Kamarás
| Botos, Akos; Khlobystov, Andrei N.; Botka, Bea; Hackl, Rudi; Szekely, Edit; Simandi, Bela; Kamaras, Katalin
We explore the physics at low and ultra-low temperatures with special focus on superconductivity and magnetism as well as on the control of quantum systems in the field of quantum technologies.
The WMI educates young people in condensed matter and quantum physics, plans and coordinates research projects. performs experiments at low and ultra-low temperatures, publishes various research
| M. Opel, S. Geprägs, E.P. Menzel, A. Nielsen, D. Reisinger, K.-W. Nielsen, A. Brandlmaier, F.D. Czeschka, M. Althammer, M. Weiler, S.T.B. Goennenwein, J. Simon, M. Svete, Wentao Yu, S.-M. Hühne,
| A. Ney, M. Opel, T.C. Kaspar, V. Ney, S. Ye, K. Ollefs, T. Kammermeier, S. Bauer, K.-W. Nielsen, S. T. B. Goennenwein, M. H. Engelhard, S. Zhou, K. Potzger, J. Simon, W. Mader, S. M. Heald, J. C.
| K. Nielsen, S. Bauer, M. Lübbe, S.T.B. Gönnenwein, M. Opel, J. Simon, W. Mader & R. Gross
| K.-W. Nielsen, J.B. Philipp, M. Opel, A. Erb, J. Simon, L. Alff & R. Gross
We experimentally demonstrate the formation of room-temperature skyrmions with radii of about 25 nm in easy-plane anisotropy multilayers with an interfacial Dzyaloshinskii-Moriya interaction (DMI).
The analytical study of confinement in lattice gauge theories (LGTs) remains a difficult task to this day. Taking a geometric perspective on confinement, we develop a real-space renormalization group
| Daniele De Bernardis and Philipp Pilar and Tuomas Jaako and Simone De Liberato and Peter Rabl
We study the ordering of spins, the magnetization dynamics, and the spin transport in magnetic materials to understand the formation of complex spin textures, their high-frequency response and the
Pure spin currents represent the charge-less transport of angular momentum. Our present research is focused on the injection, transport, and detection of magnon-based angular momentum transport in
The study of the dynamic response of both interacting and non-interacting spin systems provides important input for the general understanding of magnetic materials. Moreover, this dynamic response
We introduce a driven-dissipative Floquet model in which a single harmonic oscillator with modulated frequency and decay realizes a non-Hermitian synthetic lattice with an effective electric field
Artificial neural networks, which simulate the way the human brain analyses and processes information, are used to model complex patterns and prediction problems. This approach typically involves
Nonequilibrium phase transitions and transport in driven-dissipative systems
While the theory of phase transitions in ground and equilibrium states of condensed matter systems is well established,
| Gambra, M. Balbas; Rohr, C.; Gruber, K.; Hermann, B. A.; Franosch, T.
| D. Ballester, G. Romero, J. J. García-Ripoll, F. Deppe, E. Solano
| U Las Heras and A Mezzacapo and L Lamata and S Filipp and A Wallraff and E Solano
