Measurement and Control of Quantum Systems: Theory and Experiments
Institut Henri Poincaré, Paris, France
April 16th – July 13th 2018
Last update: January 11, 2018 (this site will be regularly updated and completed with the lastest program informations)
Aim of the thematic quarter
Constant improvements of lasers, cryogenics, electronics and nano-fabrication techniques enabled a new, bottom-up approach, where elementary quantum objects are manipulated individually and assembled into more and more complex systems. Thanks to the efforts of many experimental teams, including those of S. Haroche and D. J. Wineland who both received the Nobel Prize in 2012, motional states of trapped ions, internal states of atoms, light fields in optical cavities or mesoscopic currents in superconducting circuits can now be precisely controlled at the quantum level. Besides the fundamental interest in realizing century-old Gedankenexperiments, these efforts are motivated by applications in quantum logic, quantum communications and quantum simulations.
This intense experimental activity triggered the development of the quantum theory of control, inspired by its classical counterpart. Among other specificities, quantum measurement, however, forbade the direct transposition of the classical theory to the quantum world. Because it is nondeterministic by nature, quantum measurement induces noise. Because it projects the system on a given state depending on the outcome of the measurement, it is destructive. These two features forced physicists and mathematicians to completely reconsider techniques and scenarios based on measurement, in close connection to the current experimental state of the art. A whole new theoretical framework was thus developed for quantum error diagnosis/correction. Quantum filtering, i.e. filtering of quantum measurement-induced noise, was also designed in the context of quantum feedback control. Put forward in the context of quantum optics, quantum state and process tomography technique is another example of a successful translation to the quantum world of a classical technique. Experiments keep inspiring new theoretical approaches, such as reservoir engineering, and continue to require more and more powerful mathematical techniques allowing, e.g., for the precise modeling and simulation of quantum systems and networks.
The goal of this thematic quarter is to give the opportunity to mathematicians and physicists (both experimentalists and theorists) in the field to gather on the theme of measurement and control of quantum systems. The program envisioned should allow the participants to gain an up-to-date view of theoretical achievements and open questions enriched by experimental implementations and needs.
How to participate
If you are interested in participating, you must register on the Institut Henri Poincaré (IHP) website; we strongly encourage you to do so at your earliest convenience. For the one-week CIRM pre-school mid April you must also register independently at https://conferences.cirm-math.fr/1732.html
Structure of the thematic quarter
The thematic quarter will be organized around a pre-school at CIRM (Centre International de Rencontres Mathématiques) in Marseille and three workshops at Institut Henri Poincaré. For each workshop, half of the presentation and discussion time will be devoted to key and recent experiments, the other half will beused to address related theoretical developments.
- April 16th - 20th, 2018: CIRM pre-school "Modeling and control of open quantum systems "
- May 15th -17th, 2018: Workshop "Observability and estimation in quantum dynamics"
- June 5th - 7th, 2018: Workshop "Quantum control and feedback: foundations and applications"
- July 2nd - 6th, 2018: Conference PRACQSYS 2018 "Principles and Applications of Control in Quantum Systems"
All the events (except the pre-school at CIRM) will take place at the Institut Henri Poincaré, located in downtown Paris.
- Etienne Brion
- Eleni Diamanti
- Alexei Ourjoumtsev
- Pierre Rouchon
- Denis Bernard (Ecole Normale Supérieure de Paris)
- Nicolas Cerf (Université Libre de Bruxelles)
- Jean-Michel Coron (Université Pierre et Marie Curie)
- Michel Devoret (Yale University)
- Andrew Doherty (University of Sydney)
- John Gough (Aberystwyth University)
- Serge Haroche (Collège de France)
- Hideo Mabuchi (Stanford University)
- Klaus Mølmer (Aarhus University)
- Lorenza Viola (Dartmouth College)
- Peter Zoller (Universität Innsbruck)