| 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
| Ferdinand Helmer, Matteo Mariantoni, Austin G. Fowler, Jan von Delft, Enrique Solano & Florian Marquardt,
Multi-mode superconducting circuits offer a promising platform for engineering robust systems for quantum computation. Previous studies have shown that single-mode devices cannot simultaneously
Reaching high speed, high fidelity qubit operations requires precise control over the shape of the underlying pulses. For weakly anharmonic systems, such as superconducting transmon qubits, short
Connections between crystal chemistry and critical temperature Tc have been in the focus of superconductivity, one of the most widely studied phenomena in physics, chemistry, and materials science
We optimize Matrix-Product State (MPS)-based algorithms for simulating quantum circuits with finite fidelity, specifically the Time-Evolving Block Decimation (TEBD) and the Density-Matrix
Universal quantum computers promise to solve computational problems that are beyond the capabilities of known classical algorithms. To realize such quantum hardware on a superconducting material
| M Ganzhorn and D J Egger and P Barkoutsos and P Ollitrault and G Salis and N Moll and M Roth and A Fuhrer and P Mueller and S Woerner and I Tavernelli and S Filipp
Building quantum processor with novel properties based on superconducting qubits - this is the aim of the four year project GeQCoS ('German Quantum Computer based on Superconducting Qubits') funded
For content see "Modulhandbuch": http://www.ph.tum.de/mh?mid=PH1321
For topics see: https://www.moodle.tum.de/course/view.php?id=74956
Dear participants,
the preliminary discussion and the
The EU project OpenSuperQPlus gets underway
01 March 2023
OpenSuperQPlus unites 28 European research partners from 10 countries aiming to develop a 1,000 qubit quantum computer
The project
In diesem Buch teilen führende Vertreter aus Industrie und Forschung ihre Erfahrungen und Empfehlungen zur wirtschaftlichen Nutzbarmachung der Quantentechnologien. Verständlich geschrieben erklären
The European consortium OpenSuperQPlus (OSQ+) is making significant strides toward building Europe’s first 100-qubit quantum computer by 2026.
Mittlerweile können Forschende Quantensysteme gezielt erzeugen und ihren Zustand präzise kontrollieren und auslesen. Das nährt nicht nur die Hoffnung auf eine neue Generation von Computern, sondern
| Peter Mueller and Andreas Fuhrer and Stefan Filipp
"Quantum” may not be the first word that comes to mind when thinking about chemistry. But at the atomic level, the physical and chemical properties of molecules can be affected by quantum mechanical
WMI reviews the potential of its quantum computing technology for near-term simulations of quantum chemistry.
Daniel Jost was member of the Gross group at WMI as a Master and Ph.D. Student as well as postdoctoral researcher between 2015 and 2020.
Master Thesis: Spin Fluctuations and Superconductivity in
Jan Goetz was member of the Gross group as a Master and Ph.D. Student WMI between 2011 and 2017.
Master Thesis: Gradiometric Flux Quantum Bits with Tunable Tunnel Coupling (November 2011)
