Submitted by
Hendrai on Thu, 04/12/2014 - 20:46.
The development of technologies for the 21st century, coupled with fundamental scientific inquiry, is driving new theoretical and experimental research on control in quantum systems. Experience has shown that systematic use of quantum control theory leads to significant improvements in technologies ranging from magnetic resonance to prototype quantum computers. Compelling case studies of quantum control have been developed in wide-ranging fields such as chemistry, metrology, optical networking and computer science.
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.
