Welcome to Quantiki

Welcome to Quantiki, the world's leading social portal for everyone involved in quantum information science. No matter if you are a researcher, a student or a fan 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.

Add new content, such as information about upcoming quantum events, open positions for quantum scientists and existing quantum research groups. We also encourage to follow us using social media sites.

Dates: 

Friday, January 7, 2011

Submission deadline: 

Thursday, October 13, 2011

Quantum Information Processing (QIP) is a rapidly developing field of research spanning both physics and computer science. As the name implies, the field extends information processing (including computing and cryptography) to physical regimes where quantum effects become significant.

James Dacey at PhysicsWorld writes: ''Nanotechnology offers the promise of a new wave of sensors and optical components, but the tiny sizes involved can make it difficult for users to exchange information with these devices. Now, researchers in Spain have demonstrated a novel solution to this problem that involves fixing an "antenna" to nanoscale objects that can send and receive optical data with high precision.

The physics of quantum information team at the physics department of the Universite de Sherbrooke invites applications for up to four postdoctoral positions. The group is composed of four faculty members, Alexandre Blais, Michel Pioro-Ladrière, David Poulin, and Bertrand Reulet whose research interests cover both theoretical and experimental aspects of quantum information science and mesoscopic physics. The successful applicants will be involved in the group’s activities, which includes:

Application deadline: 

Sunday, October 31, 2010

R. Colin Johnson at EE Times writes: ''Piezoelectric effects translate mechanical motion into electricity and vice versa, energizing a variety of electronic transducer applications as well as promising to cut power consumption in MEMS devices. Now McGill University researchers are harnessing the piezoelectric effect in quantum dots, aiming for nanoscale sensors and power supplies that translate vibration into a usable signal.

Dates: 

Sunday, October 10, 2010

Submission deadline: 

Thursday, September 16, 2010

Registration deadline: 

Thursday, September 23, 2010

PQSM - Post-Quantum Security Models in Paris

In a post-quantum world, an eavesdropper is able to use quantum resources, possibly amounting to a large quantum computer, to process information. Thus, post-quantum attackers must be taken into account whenever security models and proofs are concerned, by both quantum and classical existing and future cryptosystems. And while we still do not know when, how or even whether we will enter a post-quantum era, there is already ground for common work between the quantum information and the cryptography community.

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