Welcome to Quantiki
Welcome to Quantiki, the world's leading portal for everyone involved in quantum information science. No matter if you are a researcher, a student or an enthusiast of quantum theory, this is the place you are going to find useful and enjoyable! While here on Quantiki you can: browse our content, including fascinating and educative articles, then create your own account and log in to gain more editorial possibilities.
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Submitted by
JMiszczak on Fri, 28/03/2008 - 08:07.
Researchers in the UK have taken a small but important step towards the creation of practical quantum computers by creating the first logic gates on a silicon chip that can process individual photons. The chip, which measures several millimetres across, reproduces an earlier version of the gate that occupied several square metres of space on an optical bench.
Submitted by
TraceNorm on Sun, 16/03/2008 - 10:06.
Submitted by
gawron on Fri, 14/03/2008 - 17:45.
Slashdot has an article about the withdrawal of an article by Jonathan Oppenheim and co-authors from Physical Review Letters because they had asked for a rights agreement compatible with GFDL which Quantiki uses for its content.
Submitted by
Patrick on Fri, 14/03/2008 - 02:18.
The Canadian Quantum Information Summer School has become an annual Canadian tradition and welcomes students from all over the world. The Eighth installment aims to introduce the participants to quantum algorithms, quantum error correction, quantum information theory and quantum cryptography. They will also receive lectures on implementations, quantum complexity theory, nonlocality and some more recent developments in quantum algorithms, namely quantum walks.
The Summer School is being held at the Université de Montréal in Montreal, Quebec, Canada from June 9 to 13, 2008.
Submitted by
TraceNorm on Wed, 12/03/2008 - 07:26.
One of the problems plaguing classical communication is associated with what is known as the Byzantine agreement. In this problem, messages between three different parties are subject to faulty information. Quantum communication, though, has held the promise of solving this dilemma. But until now, it has been difficult to do so, even using entangled states.
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