Since January 2012 Andreas Wallraff is a Full Professor for Solid State Physics in the Department of Physics at ETH Zurich. He joined the department in January 2006 as a Tenure Track Assistant Professor and was promoted to Associate Professor in January 2010. Previously, he has obtained degrees in physics from Imperial College of Science and Technology, London, U.K., Rheinisch Westfälische Technische Hochschule (RWTH) Aachen, Germany and did research towards his Masters degree at the Research Center Jülich, Germany. During his doctoral research he investigated the quantum dynamics of vortices in superconductors and observed for the first time the tunneling and energy level quantization of an individual vortex for which he obtained a PhD degree in physics from the University of Erlangen-Nuremberg. During the four years he spent as a research scientist at Yale University in New Haven, CT, USA he performed experiments in which the coherent interaction of a single photon with a single quantum electronic circuit was observed for the first time. His research is focused on the experimental investigation of quantum effects in superconducting electronic circuits for performing fundamental quantum optics experiments and for applications in quantum information processing. His group at ETH Zurich engages in research on micro and nano-electronics, with a particular focus on hybrid quantum systems combining superconducting electronic circuits with semiconductor quantum dots and individual Rydberg atoms, making use of fast and sensitive microwave techniques at ultra-low temperatures.
Andreas Wallraff received the Nicholas Kurti European Science Prize in March 2006 in recognition of a record of sustained achievement working at the forefront of quantum device research employing experimental low-temperature techniques. In 2009 he was awarded the prestigious European Research Council (ERC) Starting Independent Research Grant to work on hybrid cavity quantum electrodynamics with atoms and circuits. In 2011 Andreas Wallraff was awarded the ETH Zurich Max Roessler Prize. In 2013 Andreas Wallraff received an ERC Advanced Grant to perform research on quantum communication in the microwave domain.
Since 2013 Andreas Wallraff is member of the Deprtament of Physics Strategy Commission. As its President since 2015, Andreas Wallraff is a member of the Physics Department Management Board. Being a member of the Laboratory for Solid State Physics since 2006 he acts as its vice chair since 2013. Andreas Wallraff is a Board Member of the ETH Zurich clean room facilities FIRST - Center for Micro- and Nanoscience (since 2006) and the joint ETH Zurich and IBM Rueschlikon BRNC - Binnig and Rohrer Nanotechnology Center (since 2015). Andreas Wallraff also plays a leading role in the ETH Zurich Quantum Engineering Initiative which aims at strengthening the ties between science and engineering in the domain of Quantum Information Science. Since its inception in 2012 Andreas Wallraff is a member of the Scientific Committee of the Swiss National Center of Competence in Research (NCCR) Quantum Science and Technology (QSIT).
Andreas Wallraff is a member of the Global Future Councils of the World Economic Forum (WEF): The Future of Computing (since 2016) and an associate of the Canadian Institute for Advanced Research (CIFAR) (since 2014).
Selected details about Andreas Wallraff's academic activities can be found at his group web site (qudev.phys.ethz.ch) and on the following web sites:
- Rydberg Quantum Simulators (RYSQ)
- NCCR QSIT, Subproject Hybrid quantum systems using microwave frequency on-chip resonators as a coupling bus
- Exploring Geometric Effects and Geometric Gates with Superconducting Circuits
- Superconducting Quantum Networks (SuperQuNet)
- Ultrafast Instrument for Quantum Control and Measurement
- Scalable Superconducting Processors for Entangled Quantum Information Technology (ScaleQIT)
- Circuit and Cavity Quantum Electrodynamics (CCQED)
- Hybrid Cavity Quantum Electrodynamics with Atoms and Circuits (HYBRIDQED)
- Solid State Systems for Quantum Information Processing (SOLID)
- Atomic Quantum Technologies (AQUTE)
- Geometric phases, pumping, and dissipation in quantum devices (GEOMDISS)
- Cavity Quantum Electrodynamics and Quantum Information Processing with Superconducting Circuits