| Paul G. Evans, Samuel D. Marks, Stephan Geprägs, Maxim Dietlein, Yves Joly, Minyi Dai, Jiamian Hu, Laurence Bouchenoire, Paul B. J. Thompson, Tobias U. Schülli, Marie-Ingrid Richard, Rudolf Gross,…
| D. Lotnyk, A. Eyal, N. Zhelev, T. S. Abhilash, E. N. Smith, M. Terilli, J. Wilson, E. Mueller, D. Einzel, J. Saunders, J. M. Parpia
| T.S. Suraj, Manuel Müller, Sarah Gelder, Stephan Geprägs, Matthias Opel, Mathias Weiler, K. Sethupathi, Hans Huebl, Rudolf Gross, M.S. Ramachandra Rao, Matthias Althammer
Antiferromagnetic materials promise improved performance for spintronic applications as they are robust against external magnetic field perturbations and allow for faster magnetization dynamics…
Light-matter interaction in optomechanical systems is the foundation for ultra-sensitive detection schemes as well as the generation of phononic and photonic quantum states. Electromechanical systems…
| S. Lederer, D. Jost, R. Hackl, E. Berg, S.A. Kivelson
| Stefan Weichselbaumer, Christoph W. Zollitsch, Martin S. Brandt, Rudolf Gross, Hans Huebl
| F. Boschini, M. Zonno, E. Razzoli, R. P. Day, M. Michiardi, B. Zwartsenberg, P. Nigge, M. Schneider, E. H. da Silva Neto, A. Erb, S. Zhdanovich, A. K. Mills, G. Levy, C. Giannetti, D. J. Jones, A.…
| Neelima Paul, Jean-Francóis Moulin, Gaetano Mangiapia, Armin Kriele, Peter Müller-Buschbaum, Matthias Opel, Amitesh Paul
| Wei Cao, Senlin Xia, Xinyu Jiang, Michael Appold, Matthias Opel, Martina Plank, Roy Schaffrinna, Lucas P. Kreuzer, Shanshan Yin, Markus Gallei, Matthias Schwartzkopf, Stephan V. Roth, Peter…
We investigate the spin Hall magnetoresistance (SMR) at room temperature in thin-film heterostructures of antiferromagnetic insulating (0001)-oriented alpha-Fe2O3 (hematite) and Pt. We measure their…
| M. Ganzhorn, G. Salis, D. J. Egger, A. Fuhrer, M. Mergenthaler, C. Müller, P. Müller, S. Paredes, M. Pechal, M. Werninghaus, and S. Filipp
| Andreas Fuhrer and Andreas Kuhlmann and Ute Drechsler and Veeresh V Deshpande and Stefan Filipp and Marc Ganzhorn
A typical goal of a quantum simulation is to find the energy levels and eigenstates of a given Hamiltonian. This can be realized by adiabatically varying the system control parameters to steer an…
Optomechanical systems allow for the study of quantum mechanics in the literal sense. However, they often suffer from a low photon-phonon coupling rate. Coupling rates exceeding those of capacitive…
Planar oxygen nuclear magnetic resonance (NMR) relaxation and shift data from all cuprate superconductors available in the literature are analyzed. They reveal a temperature-independent pseudogap at…
The spin Hall effect in heavy-metal thin films is routinely used to convert charge currents into transverse spin currents and can be used to exert torque on adjacent ferromagnets. Conversely, the…
We report on the impact of nonlinear four-magnon scattering on magnon transport in microstructured Co25Fe75 waveguides with low magnetic damping. We determine the magnon propagation length with…
We formulate a theoretical description of antiferromagnetic magnons and their transport in terms of an associated pseudospin. The need and strength of this formulation emerges from the…
We studied the electronic Raman spectra of (Li1−xFex)OHFeSe as a function of light polarization and temperature. In the B1g spectra alone we observe the redistribution of spectral weight expected for…
In this thesis, we investigate a strongly coupled spin-photon hybrid system consisting of a superconducting microwave resonator and a spin ensemble of phosphorus donors in 28Si. We study the dynamics…
We realize a deterministic quantum communication protocol using continuous-variable quantum microwaves. We employ Josephson parametric amplifiers to generate single- and two-mode squeezed states and…
We study the interaction of surface acoustic waves with spin waves in ultrathin CoFeB/Pt bilayers. Because of the interfacial Dzyaloshinskii–Moriya interaction (DMI), the spin wave dispersion is…
| A. H. Abdelhameed, G. Angloher, P. Bauer, A. Bento, E. Bertoldo, R. Breier, C. Bucci, L. Canonica, A. D'Addabbo, S. Di Lorenzo, A. Erb, F. v. Feilitzsch, N. Ferreiro Iachellini, S. Fichtinger, D.…
This project explores the potential of multi-qubit gates for quantum computing on a superconducting qubit platform. The main goal is to develop superconducting architectures and control methods to…
Classical radar technologies (e.g., used for earth observation through satellites, aircraft, or vehicles) are already reaching their physical limits in range, mainly due to the unavoidable noise of…
The scientific goals of MOQS are to perform experimental and theoretical quantum simulations of comparatively complex molecular structures as well as electron and energy transfer in molecular…
The goal of this research project is to explore the potential of multi-qubit gates for quantum computing. The main focus is on speeding up quantum algorithms based on the variational quantum…
Multiple echoes as a result of a strong link between spins and microwave photons
Exciting discovery brings new perspectives for information technologies.
The SuperQuLAN project addresses the long-term goal of realizing large-scale Quantum Local Area Networks (QuLANs), where many individual superconducting quantum computing modules are linked by…
| Michael Schuler and Daniele De Bernardis and Andreas Läuchli and Peter Rabl
| Julian Huber and Peter Kirton and Stefan Rotter and Peter Rabl
| Philipp Pilar and Daniele De Bernardis and Peter Rabl
| Julian Huber and Peter Kirton and Peter Rabl
