| Mathias Weiler, Franz D. Czeschka, Inga-Mareen Imort, Günter Reiss, Andy Thomas, Georg Woltersdorf, Rudolf Gross Sebastian T. B. Goennenwein
| Yu. A. Ossipyan, N. S. Sidorov, A. V. Palnichenko, O. M. Vyaselev, M. V. Kartsovnik, M. Opel, V. V. Avdonin, D. V. Shakhrai, V. E. Fortov
| S. de Jong, E. van Heumen, S. Thirupathaiah, R. Huisman, F. Massee, J. B. Goedkoop, R. Ovsyannikov, J. Fink, H. A. Duerr, A. Gloskovskii, H.S. Jeevan, P. Gegenwart, A. Erb, L. Patthey, M. Shi, R.
| Gruber, Kathrin; Rohr, Carsten; Scherer, Lukas J.; Malarek, Michael S.; Constable, Edwin C.; Hermann, Bianca A.
| D. Andres, M.V. Kartsovnik, W. Biberacher, K. Neumaier, H. Muller
| AGGARWAL, K; LITTERST, FJ; KALVIUS, GM; OLBERDING, W; LERF, A; BIBERACHER, W
Dieter Andres was member of the Gross group at WMI as Ph.D. student between 2000 and 2005. Ph.D. Thesis: Effects of high magnetic fields and hydrostatic pressure on the low temperature density
We present small-angle neutron scattering studies of the magnetic vortex lattice (VL) in Ca0.04Y0.96Ba2Cu3O7 up to a field of 16.7 T and Ca0.15Y0.85Ba2Cu3O7 up to 25 T to investigate the general
| B. Muschler, W. Prestel, L. Tassini, R. Hackl, M. Lambacher, A. Erb, Seiki Komiya, Yoichi Ando, D.C. Peets, W.N. Hardy, R. Liang, and D.A. Bonn
| C. Pfleiderer , T. Adams , A. Bauer , W. Biberacher , B. Binz , F. Birkelbach , P. Böni , C. Franz , R. Georgii , M. Janoschek , F. Jonietz , T. Keller , R. Ritz , S. Mühlbauer , W. Münzer , A.
| F. Venturini, M. Opel, T.P. Devereaux, J.K. Freericks, Tütto, B. Revaz, E. Walker, H. Berger, L. Forró & R. Hackl
| M. Lavagnini, F. Pfuner, R. Monnier, L. Degiorgi, H.-M. Eiter, L. Tassini, B. Muschler, R. Hackl, J.-H. Chu, N. Ru, K.Y. Shin, I.R. Fisher,
| Kargl, V.; Mirmelstein, A.; Boeni, P.; Sheptyakov, D.; Amato, A.; Kazakov, S.; Karpinski, J.; Erb, A.
| Schlicht, A; Schwenker, M; Biberacher, W; Lerf, A
| Schlicht, A; Lerf, A; Biberacher, W
| Hackl, R; Krug, G; Nemetschek, R; Opel, M; Stadlober, B
| MOTTNER, P; LERF, A; BUTZ, T; KNOZINGER, H; MULLER, A; WITTNEBEN, V; KRICKEMEYER, E
| HACKL, R; KAISER, R; GLASER, W
| ALLGEIER, C; SIEBURGER, R; GOSSNER, H; DIEDERICHS, J; NEUMAIER, H; REITH, W; MULLER, P; SCHILLING, JS
| BIBERACHER, W; JOSS, W; VANRUITENBEEK, JM; LERF, A
| BUTZ, T; LERF, A; VOGDT, C; EID, AMM
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
magnetism in rare-earth compounds (Kondo and crystal field effects) hyperfine interaction enhanced nuclear demagnetization first experiments on superfluid 3He in Germany
In our studies of highly anisotropic correlated electronic systems in organic conductors we are broadly using high-field semiclassical magnetotransport and quantum magnetic oscillations as tools
For years, this textbook has been held in high esteem for conveying information in a pedagogically challenging and modern way. The authors do not just present the full spectrum of solid-state physics
| Edoardo Sterpetti, Johan Biscaras, Andreas Erb, Abhay Shukla
| Honold, MM; Singleton, J; Harrison, N; Kartsovnik, MV; Kushch, ND; Kurmoo, M; Day, P
Comprehensive control of the domain wall nucleation process is crucial for spin-based emerging technologies ranging from random-access and storage-class memories over domain-wall logic concepts to
We describe a unified classical approach for analyzing the scattering coefficients of superconducting microwave resonators with a variety of geometries. To fill the gap between experiment and theory,
A comprehensive overview on the present research activities at the WMI can be found on the Research Page.
High-pressure anvil cell nuclear magnetic resonance (NMR) studies of single crystals are challenging, but they can offer much insight into material properties. A microcoil inside the high-pressure
A method of operating a quantum information processing apparatus is provided. This apparatus includes a structure of coupled qubits, where N≥ 3, wherein the structure further includes coupling
The cluster of excellence Munich Center for Quantum Science and Technology (MCQST) comprises seven research units within disciplines such as physics, mathematics, computer science, electrical
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 present a cavity-electromechanical system comprising a superconducting quantum interference device which is embedded in a microwave resonator and coupled via a pickup loop to a 6-μg magnetically
