Quantum Simulation

Quantum Optics

Research Type: 
Theory

Cavity QED, Bose-Einstein condensation, quantum critical phenomena

Leader: 
Peter Domokos

9th Optoelectronics and Photonics Winter School: IQP – Integrated Quantum Photonics

Date: 
2017-03-26 - 2017-04-01
Registration deadline: 
2017-02-28 (All day)
Place: 
Folgaria (Trento), Italy

The Optoelectronics and Photonics Winter Schools are biannual meetings which address relevant arguments of Optoelectronics and Photonics. The School has the tradition to bring together a large number of PhD students and young researchers from all parts of the world who, in a one-week of an intense program, follow a series of lectures on selected topics. The lectures are held by internationally recognized experts in the field. At the same time, the students are encouraged to enjoy the beautiful location where the school is organized.

Minutes of the High Level Steering Committee meeting of the 10th November 2016

As follow up to the publication of the minutes of the Flagship Berlin workshop, we publish here below the minutes of the High Level Steering Committee meeting, which took place after the workshop.

QT Flagship Community Consultation Workshop - minutes of the meeting

Summary: 

we publish the minutes of the QT Flagship workshop that took place the 10th November in Berlin.

Here you can download the minutes of the workshop

 

If you have any question, further input, or need any clarification, please do not hesitate to contact us at mattia [dot] giardini [at] uni-ulm [dot] de

Quantum Chaos and Quantum Dynamics Group

Research Type: 
Theory
Leader: 
Roland Ketzmerick and André Eckardt

Quantum Optics and Technology

Research Type: 
Theory

Research in our group focuses on quantum optics and technology. Quantum optics studies various phenomena in light-matter interaction, where the quantum properties of the light and matter play an important role. Quantum technology is an emerging interdisciplinary field, encompassing several fields of physics and technology. It aims to realize practical devices for quantum simulations, computing, communication and metrology.

Leader: 
David Petrosyan and Georgios M. Nikolopoulos

QuantumMagnonics at KIT

Research Type: 
Experiment

Quantum state manipulation in natural and artificial spin systems
 

Leader: 
Dr. Martin Weides

Quantum Systems Engineering Research Group

Research Type: 
Theory
Experiment
  • The application of Systems Engineering Methods to accelerate Blue-Sky and low TRL devices and technologies.
  • The development of new Systems Engineering methods that will be needed in the quantum technologies industry specifically in the areas of Quantum Design for … (test, reliability, manufacture). Here, for example, we are pioneering the use of phase space methods for feedback & control and certification of quantum systems.
  • Additive manufacture for developing quantum technologies (currently focused on superconductors).
Leader: 
Mark Everitt
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