CONTACT
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CV
| Academic Education | |
| 1999 | Habilitation (Theoretical Physics): “Driven dissipative tunneling”, Universit?t Augsburg |
| 1991 – 1994 | PhD in Theoretical Physics (supervisor: M. Sassetti), |
| Università di Genova, Italy | |
| 1986 – 1991 | Study of Physics (diploma), Università di Genova, Italy |
| Research and Professional Experience | |
| since 2003 | Chair in Theoretical Physics (C4), Universit?t Regensburg |
| 2002 – 2003 | Universitair Hoofdocent (UHD) (associate professor, permanent), Technische Universiteit Delft, The Netherlands |
| 2000 – 2002 | Universitair Docent (UD) (assistant professor, permanent),? Technische Universiteit Delft, The Netherlands |
| 2000 | Ricercatore INFM (associate professor, non permanent),? Università di Genova, Italy |
| 1999 | Research associate, Universit?t Karlsruhe |
| 1998 | Visiting scientist, Universit?t Stuttgart |
| 1998 – 1999 | Research associate, Università di Genova, Italy |
| 1994 – 1998 | Postdoctoral position, Universit?t Augsburg |
| Further Activities, Awards and Scholarships | |
| 2020-2024 | Member of the working group (Fachkolleg) |
| 2019 | Member of the Review Panel for the assignment of Distinguished Professor grants of the Swedish Research Council |
| since 2017 | Member of the Advisory Board for the Norwegian Centre of Excellence on Quantum Spintronics |
| 2017 | Member of the Review Panel for the assignment of Distinguished Professor grants of the Swedish Research Council |
| 2015 – 2016 | Member of the Review Committee for the activities of the Italian Institute of technology (IIT) in the timeframe 2012-2014, Ministry of Education and Ministry of Economics and Finances, Italy |
| 2014 – 2016 | Member of the Scientific Advisory Board of the Finnish Centre of Excellence, Aalto University, Finland |
| 2014 | Scientific Advisory Board for the rating of the Physics Departments in Hessen, Ministry of Research and Arts of the State of Hessen |
| 2013 | Reviewer of the FP7 integrated project SOLID |
| 2011 – 2013 | Vice President of the University of Regensburg, resort Research |
| 2011 | Reviewer of the FP7 integrated project SOLID |
| 2009 – 2018 | Spokesperson of the DFG Research Training Group 1570 “Electronic Properties of Carbon Based Nanostructures” |
| 2009 – 2011 | Editorial Board Member of “Advances in Physics” |
| 2009 – 2011 | Dean of the Physics Department, Universit?t Regensburg |
| 2007 – 2009 | Vice Dean of the Physics Department, Universit?t Regensburg |
| 2004 – 2013 | Editorial Board Member of “The European Physical Journal B” |
| 2004 – 2007 | Responsible for Women Affairs of the Physics Department,? Universit?t Regensburg |
| 2002 – 2010 | Editorial Board Member of “New Journal of Physics” |
| 2002 – 2003 | ASPASIA fellowship of the Netherlands Organisation for Scientific Research (NWO) |
| 2002 – 2003 | Captain of the Flagship “Quantum computing with nanodevices” ?within the dutch NanoNed Program |
RESEARCH
My research focuses on dynamical properties (transient and stationary) of open quantum systems out-of-equilibrium.
Fermionic open quantum systems are for example nanosized conductors coupled to source and drain electrodes. The electrodes, play here the role of fermionic heat baths. In this context we study many-body properties of hybrid nanojunctions, molecular systems in STM configuration or complex quantum dots. Focus is on quantum transport set-ups where particle, heat or spin currents arise due to particle or temperature gradients, or in response to external electromagnetic fields.
Bosonic open quantum systems are encountered when (effective) quantum particles interact with a bosonic environment, e.g. with a phonon bath in a crystal or with the quantized modes of an electromagnetic cavity. Systems of interest are for example quantum Brownian particles, driven and? dissipative multilevel systems, or superconducting platforms containing linear and non-linear elements for quantum computation and quantum information purposes.? ?
In recent years we have developed a many-body theory of quantum transport based on the reduced density matrix approach, which we have applied to investigate transport in carbon nanotube based nanojunctions and molecules. Also, we have used non-perturbative field theory approaches to investigate strongly correlated systems in the Kondo regime and interacting one-dimensional systems. Path integral approaches have recently been used to investigate decoherence and relaxation properties of superconducting qubits interacting with an electromagnetic environment, as well as strongly interacting impurity systems.
Quantum transport in nanostructures
Topological superconductors
Image: Author - Magdalena Marganska-Lyzniak
Single molecule junctions
Image: Author - Andrea Donarini
Carbon nanotube based junctions
Image: Author - Michael Niklas
Interacting quantum dots
Image: Author - Leonhard Mayrhofer
Spintronics
Image - Source: A. Dirnaichner et al., PRB 91, 195402 (2015)
Quantum dissipative systems
Superconducting platforms for quantum information and quantum simulations
Image - Source: M. Governale et al., Chem. Phys. 268, 273 (2001)
Dissipative qubits and multi-level systems
Image - Source: M. Goorden et al., Phys. Rev. Lett. 93, 267005 (2004)?
Driven dissipative tunneling
Image - Source: Magazzú et al., arXiv: 2104.14490v2 [quant-ph] 9 May 2021
Quantum ratchets
The windmill: a classical ratchet
Quantum stochastic resonance
Image - Source: M. Grifoni and P. H?nggi, Phys. Rev. Lett. 76, 1611 (1996)
Acoustic properties of quantum glasses at low temperatures
Image - Source: J. Stockburger et al., Phys. Rev. B 51, 2835 (1995)
TEACHING
SUMMERTERM 2021
Lecture
D-52308
Thursday? 12:00 - 14:00 (c.t.)??
Colloquium
Colloquium on condensed matter theory
D-52461
Thursday 14:00 - 17:00 (c.t.)
Seminar
Seminar on current research projects
D-52464
Time and place by appointment
Seminar
Joint condensed matter theory seminar on current research topics
D-52465
Wednesday 10:00 - 12:00 (c.t.)
Seminar
Seminar on special topics in open quantum systems?
D-52467
Monday 13:00 - 15:00 (c.t.)
