Submitted by
Thbusch on Sun, 27/02/2022 - 03:21.
Dates:
Tuesday, April 12, 2022 to Thursday, April 14, 2022
Ultracold atoms have in the past two decades become one of the most active and exciting research areas in physics. Cold atomic systems are low energy, pure and highly configurable and therefore allow to create setups in which new and advanced quantum mechanical effects can be studied and engineered. In fact, cold atomic systems are not only at the forefront for discovering fundamental new physics, they are also at the frontier in the development of advanced quantum technologies, such as quantum simulators or quantum metrology devices.
Submitted by
Thbusch on Thu, 13/04/2017 - 11:56.
The study of quantum coherent dynamics is currently one of the most active and exciting areas in physics. It holds the promise for the development of new technologies (quantum computing, quantum metrology,...) and, at the same time, has already delivered insights into the foundations of quantum mechanics. Its fast moving pace, in both theory and experiment, has attracted many young researchers and summer schools have become an integral part of the education and networking of students.
Submitted by
Thbusch on Mon, 10/10/2016 - 05:05.
The Okinawa Institute of Science and Technology Graduate University invites applications for at least 5 new faculty members.
Targeted areas for the current search include:
Physics: Quantum Information; Ultracold Physics; Condensed Matter; Cosmology/Gravitational Waves
Mathematics: Discrete Mathematics; Computational Sciences; Big Data Analysis
Chemistry: Chemical Biology; Materials Chemistry (including Polymer Chemistry, Metal-Organic Frameworks)
Life Sciences: Cell Biology; Theoretical Biology; Behavioral Learning Theory
Submitted by
Sile on Sun, 20/09/2015 - 06:14.
Application deadline:
Saturday, November 14, 2015
The Okinawa Institute of Science and Technology Graduate University invites applications for at least 7 new faculty members. Research areas include Biology, Chemistry, Computer Science, Ecology and Environmental Science, Marine Science, Mathematics, Neuroscience, and Physics. Appointments will be made as Tenure Track Assistant Professor, Tenured Associate Professor, and Tenured Professor. This is part of a plan to hire 50 new faculty members by 2023.
Submitted by
Thbusch on Sun, 08/03/2015 - 05:34.
The study of quantum coherent dynamics is currently one of the most active and exciting areas in physics. It holds the promise for the development of new technologies (quantum computing, quantum metrology,...) and, at the same time, has already delivered insights into the foundations of quantum mechanics. Its fast moving pace, in both theory and experiment, has attracted many young researchers and summer schools have become an integral part of the education and networking of students.
Submitted by
Thbusch on Mon, 17/02/2014 - 01:29.
Submission deadline:
Wednesday, April 30, 2014
Registration deadline:
Wednesday, April 30, 2014
The study of quantum coherent dynamics is currently one of the most active and exciting areas in physics. It holds the promise for the development of new technologies (quantum computing, quantum metrology,...) and, at the same time, has already delivered insights into the foundations of quantum mechanics. Its fast moving pace, in both theory and experiment, has attracted many young researchers and summer schools have become an integral part of the education and networking of students.
Submitted by
Thbusch on Fri, 02/11/2012 - 06:39.
Submission deadline:
Monday, December 31, 2012
Registration deadline:
Monday, December 31, 2012
The quest to create complex synthetic quantum systems from the bottom up is currently one of the most active and exciting areas of physics. It promises the ability to study new and advanced quantum mechanical effects for fundamental science and applications in quantum engineering. Typical experimental systems in this area are cold atoms and ions, nano-resonators, semiconductor quantum dots or superconducting quantum interference devices, with new and exciting ones added regularly. All of these allow large experimental control and detailed theoretical understanding.
