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This is an exciting time to be studying quantum algorithms. As the technological challenges of building a quantum computer continue to be met there is still much to learn about the power of quantum computing. Which problems could a quantum computer solve faster than a classical device? and which problems remain hard? What will be the killer application that incentives industrial investment?
Submitted by
JMiszczak on Wed, 17/12/2014 - 19:24.
Quantum information processing provides a plethora of new problems and research topics suitable for tackling using computer algebra systems. This includes the problems of characterizing multipartite entanglement, generation and optimization of quantum computational circuits and analysis of quantum walks and quantum automata. In the reverse direction, quantum algorithms which outperform their classical counterparts may be of use in symbolic calculations (e.g. Grobner Bases).
Submitted by
Colin on Wed, 23/07/2014 - 14:30.
Applications from Indian nationals are invited for the following positions (initially for 1 year) under the project “Topology, quantum computation and spintronics with Dirac materials” in the School of Physical Sciences, NISER, Bhubaneswar, India funded by Dept. of Science and Technology, DST-Nanomisssion, Govt. of India.
Submitted by
Mleifer on Tue, 06/05/2014 - 23:22.
Our activities in quantum information concentrate on the implementation of simple quantum algorithms and the development of techniques for reducing decoherence and errors. Our experimental setups include magnetic resonance and high-resolution laser systems.
Submitted by
Gettrick on Wed, 29/01/2014 - 13:18.
Application deadline:
Monday, February 10, 2014
Submitted by
Mleifer on Wed, 15/01/2014 - 21:25.
Date: 28th January 2014
Time: 2pm UTC/GMT
Speaker: Troels Frimodt Rønnow (ETH Zurich)
Title: Quantum annealing on 503 qubits
Submitted by
Ambainis on Fri, 03/01/2014 - 15:34.
Applications are invited for a postdoctoral position in the group of Andris Ambainis at the Faculty of Computing, University of Latvia. Our research group is interested in the following research topics:
- quantum algorithms and complexity theory;
- quantum communication, quantum information theory and cryptography;
- connections between quantum computing and classical computer science (using ideas from quantum information to solve classical problems);
- using ideas from quantum information to study physical systems.
Submitted by
Colin on Wed, 23/10/2013 - 20:07.
Application deadline:
Thursday, November 14, 2013
Applications from Indian nationals are invited for the following positions (initially for 1 year) under the project “Topology, quantum computation and spintronics with Dirac materials” in the School of Physical Sciences, NISER funded by DST Nanomisssion, Govt. of India.
1. RESEARCH ASSOCIATE:
Qualification - Candidate should have Ph.D degree in Physics (or, should have submitted the thesis), preferably in theory. Fellowship: Rs.24,000+HRA (as per DST norms) per month. Age: Maximum 35 years as on last date of application.
Submission deadline:
Monday, December 30, 2013
Registration deadline:
Monday, December 30, 2013
This program will deal with quantum cryptography, quantum computing and quantum repeaters. The goal of this event is to introduce this exciting topic in a relaxed and stimulating atmosphere to a general audience of physicists and computer scientists with little or no background in practical quantum communications. Special emphasis will be placed on practical aspects of quantum communications, such as the implementation of Quantum Key distribution systems and quantum repeaters, as well as concrete steps towards a quantum computer.
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