Forschungsgruppen

Das Munich Quantum Valley und Bayern als Ganzes verfügen über ein breites Spektrum an Fachwissen auf dem Gebiet der Quantenwissenschaften, wie aus der Liste der aktiven MQV-Forschungsgruppen und QST Forschungsgruppen außerhalb des MQV erkennbar ist.

MQV-Forschungsgruppen

Gruppenleitung Zugehörigkeit(en) Stichworte (Englisch)  
Prof. Monika Aidelsburger LMU-PH quantum simulator, cold atoms in optical lattices

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Prof. Christian Back TUM-PH hybrid magnetic structures, spin-vaves, magnonics, spin orbitronics, topological materials Webseite
Prof. Mikhail Belkin TUM-CIT, WSI optoelectronics, integrated photonics, metamaterials

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Prof. Pramod Bhatotia TUM-IN operating systems, distributed architectures, virtualization

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Dr. Sebastian Blatt MPQ quantum simulator, cold atoms in optical lattices

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Prof. Immanuel Bloch LMU-PH, MPQ quantum simulator, cold atoms in optical lattices, rydberg atoms

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Prof. Holger Boche TUM-CIT quantum information theory, quantum computing, quantum communication

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Prof. Dominique Bougeard RE-PH spin qubits in silicon and germanium, experimental spin qubit manipulation, superconductor/semiconductor proximity, electrostatically defined qubit devices, semiconductor epitaxy, hybrid heterostructures Webseite
Prof. Martin Brandt TUM-PH, WSI dopants and defects in semiconductors for quantum applications, EPR, ESR

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Dr. Dominik Bucher TUM-PH biomolecular quantum sensing, NV-NMR Webseite
Dr. Christian Carlowitz FAU-EEI millikelvin electronics, RF system design, RF measurement techniques, applied quantum technologies

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Prof. Juan Ignacio Cirac MPQ, TUM-PH quantum optics, quantum information theory, quantum many-body physics, tensor networks

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Dr. Frank Deppe TUM-PH, WMI solid-based quantum systems, superconducting quantum circuits, quantum communication, quantum sensing

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Dr. Christian Deppe TUM-EI quantum information theory, quantum communication, quantum networks

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Prof. Vladimir Dyakonov JMU-PH 2D materials, quantum sensing, electron spin resonance Webseite
Prof. Claudia Eckert FhG-AISEC, TUM-IN quantum cryptography, static code analysis, secure/private computation, machine learning applications for IT Security

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Prof. Dmitri K. Efetov LMU low-dimensional quantum materials, quantum sensing, quantum networks

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Prof. Stefan Filipp TUM-PH, WMI solid-based quantum systems, superconducting quantum circuits, nanomechanical systems

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Prof. Jonathan Finley TUM-PH, WSI semiconductor nanostructure, nanotechnology, quantum optics

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Prof. Steffen Glaser TUM-CH nuclear magnetic resonance, magnetic resonance imaging, quantum computing, biopolymers

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Prof. Milena Grifoni RE-PH open quantum systems, quantum transport, quantum information platforms Webseite
Prof. Rudolf Gross WMI, TUM-PH solid-based quantum systems, superconducting quantum circuits, magnetism, spintronics, correlated electron systems

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Prof. Michael Hartmann FAU-PH superconducting quantum circuits, quantum algorithms, nanomechanical systems, quantum optics

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Prof. Bert Hecht JMU-PH nano-opto-electronics, nano-optical circuitry, nano quantum optics Webseite
Prof. Sven Höfling JMU-PH quantum photonics and polaritonics, topological photonics, semiconductor nanostructures Webseite
Prof. Alexander Högele LMU-PH quantum nano-systems, quantum dots, quantum optics

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Prof. Alexander Holleitner TUM-PH, WSI single-atom circuits, topological materials and electronics, excitonic many-body states including Bose-Einstein condensates, femtosecond on-chip electronics

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PD Dr. Hans Hübl TUM-PH, WMI solid-based quantum systems, superconducting quantum circuits, magnetism, spintronics

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Prof. Christian Jirauschek TUM-CIT theoretical and computational photonics, nanoelectronics, nano-optoelectronics

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Prof. Michael Knap TUM-PH strongly correlated quantum many-body systems, non-equilibrium quantum dynamics, ultracold quantum gases

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Prof. Johannes Knolle TUM-PH strongly correlated quantum many-body systems, quantum phases of matter, quantum spin liquid

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Prof. Robert König TUM-MA quantum information theory, quantum fault-tolerance, quantum algorithms

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Prof. Dieter Kranzlmüller LMU-IN, LRZ high-performance computing, quantum computing

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Prof. Christoph Kutter FhG-EMFT, UniBW silicon-based semiconductor technology, quantum computing

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Prof. Claudia Linnhoff-Popien LMU-IN quantum computing, machine learning

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PD Dr. habil. Jeanette Miriam Lorenz FhG-IKS dependable quantum computing, quantum machine learning, dependable quantum applications

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Dr. Jürgen Lorenz FhG-IISB semiconductor device simulation, semiconductor technology simulation, modeling and artificial intelligence

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Prof. Florian Marquardt MPL, FAU-PH cavity optomechanics and nanomechanics, quantum information processing, quantum many-body physics, machine learning for physics

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Dr. Achim Marx TUM-PH, WMI solid-based quantum systems, superconducting quantum circuits, nanomechanical systems

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Prof. Christian Mendl TUM-IN strongly correlated quantum many-body systems, quantum computing, transport properties of physical systems

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Prof. Roland Nagy FAU-EEI RF microelectronics, system design, integrated electronics, applied quantum technologies

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Dr. Janis Noetzel TUM-CIT quantum information theory, quantum networks, quantum signal processing

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Prof. Lode Pollet LMU-PH strongly correlated quantum many-body systems, cold atoms in optical lattices, quantum Monte Carlo methods

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Prof. Frank Pollmann TUM-PH strongly correlated quantum many-body systems, topological phases of matter, tensor networks

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Dr. Nikolas Pomplun DLR-RB optimal control theory, quantum algorithms Webseite
Prof. Andreas Reiserer TUM-PH, MPQ quantum networks, distributed quantum information processing, spin qubits

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Prof. Vahid Sandoghdar FAU-PH single-emitter quantum nano-optics Webseite
Prof. Markus Sauer JMU-BIO super-resolution microscopy and imaging, biophysics Webseite
Dr. Christian Schilling LMU-PH quantum information theory, quantum chemistry, strongly correlated quantum many-body systems

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Prof. Kai Phillip Schmidt FAU-PH condensed matter physics, quantum optics, quantum information, topological and frustrated magnetism

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Prof. Ulrich Schollwöck LMU-PH strongly correlated quantum many-body systems, cold atoms in optical lattices, tensor networks

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Dr. Thomas Schulte-Herbrüggen TUM-CH nuclear magnetic resonance, magnetic resonance imaging, quantum computing

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Prof. Martin Schulz TUM-IN, LRZ high-performance computing, quantum computing

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Prof. Helmut Seidl TUM-IN automatic program analysis, programming languages, semi-structured data, tree-automata

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Prof. Marc Tornow TUM-CIT molecular electronics, functional electronic materials, resistive switching devices, nanopores

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Prof. Jan von Delft LMU-PH strongly correlated quantum many-body systems, tensor networks, functional renormalization group

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Prof. Joachim von Zanthier FAU-PH quantum optics, quantum information, collective effects of light and matter, multi-photon-interferences Webseite
Prof. Heiko Weber FAU-PH silicon carbide, color centers, quantum sensing Webseite
Prof. Dieter Weiss RE-PH quantum transport, spintronics, topological insulators and 2d_materials Webseite
Prof. Robert Wille TUM-CIT quantum computing, microfluidics, conventional computing

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Dr. Johannes Zeiher MPQ quantum simulator, cold atoms in optical lattices, rydberg atoms

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QST Forschungsgruppen in Bayern außerhalb des MQV

Gruppenleitung Zugehörigkeit(en) Stichworte (English)  
Prof. Fakher Assaad JMU-PH numerical approaches to correlated electron systems, quantum Monte Carlo, heavy fermion systems, correlations and topology Webseite
Prof. Mikhail Belkin TUM-CIT, WSI optoelectronics, integrated photonics, metamaterials Webseite
Prof. Matthias Bode JMU-PH surface science, spin-orbit-coupled and topological material, spin-polarized scanning tunneling spectroscopy Webseite
Prof. Felix Büttner AU-PH topology in magnetism, ultrafast spin dynamics, advanced x-ray imaging, spintronics for quantum computing Webseite
Prof. Livio Chioncel AU-PH disorder and strong correlations, quantum algorithms, compressed sensing Webseite
Prof. Martin Eckstein FAU-PH strongly correlated quantum many-body systems, non-equilibrium quantum dynamics, dynamical mean-field theory Webseite
Prof. Christopher Eichler FAU-PH superconducting circuits and solid-state quantum devices, quantum computing and information processing,  quantum optics Webseite
Prof. Jaroslav Fabian RE-PH quantum materials, spintronics Webseite
Dr. Simon Fölling LMU-PH quantum simulator, cold atoms in optical lattices Webseite
Prof. Philipp Gegenwart AU-PH quantum materials with strong electronic correlations Webseite
Prof. Philipp Hansmann FAU-PH strongly correlated quantum many-body systems, material-realistic low energy models, spectroscopy, dynamical mean-field theory Webseite
Prof. Albert Heuberger FhG-IIS integrated electronics, applied quantum technologies, high-performance signal processing platform, quantum algorithms for applications, cloud and infrastructure Webseite
Prof. Markus Heyl AU-PH nonequilibrium quantum dynamics, quantum many-body physics, machine learning  in physics Webseite
Prof. Peter Hommelhoff FAU-PH ultrafast electron dynamics inside of 2-d materials and at the surface of metals, electron correlations, quantum electron microscopy, quantum-coherent light-electron coupling Webseite
Prof. Sebastian Klembt JMU-PH light-matter interaction, topological photonics, exciton-polaritons, microcavity and laser physics, organic emitters, perovskites, transition metal dichagogenides Webseite
Prof. Jakob Kottmann AU-IN quantum computing, quantum chemistry, scientific software development Webseite
Prof. Vojislav Krstic FAU-PH quantum- and nanomaterials, quantum and topological states, electronic transport and optics Webseite
Prof. Janina Maultzsch FAU-PH 2D materials, light-matter interaction, quantum materials Webseite
Prof. Fabian Pauly AU-PH quantum transport, nanoscience, electronic structure theory, quantum chemistry, scientific computing Webseite
Prof. Friedrich Reinert JMU-PH experimental investigation of complex, correlated or topological condensed matter (surfaces, solids and thin films), electronic structure, photoemission spectroscopy (ARPES) Webseite
Prof. Klaus Richter RE-PH quantum many-body physics, non-equilibrium quantum dynamics, quantum control Webseite
Prof. Ronny Thomale JMU-PH superconductivity, frustrated magnetism, topological insulators, topological quantum computation Webseite
Prof. Martin Vossiek FAU-EEI RF microelectronics, system design, integrated electronics, applied quantum technologies Webseite
Prof. Robert Weigel FAU-EEI RF microelectronics, system design, integrated electronics, applied quantum technologies Webseite
Prof. Harald Weinfurter LMU-PH quantum information, quantum optics Webseite