Home > News > Making quantum computing scalable
March 25th, 2009
Making quantum computing scalable
Quantum information processing is one of the hottest areas of science and technology right now. Making quantum information processing scalable is an important part of the efforts involved with regard to practical quantum computing. "By tuning the gap of a superconducting qubit, we can allow different types of coupling for use in quantum information processing," Hans Mooij tells PhysOrg.com.
Mooij is part of a group at the Kavli Institute of Nanoscience at Delft University of Technology in The Netherlands.
News and information
Pioneering breakthrough of chemical nanoengineering to design drugs controlled by light June 18th, 2013
Study Shows How the Nanog Protein Promotes Growth of Head and Neck Cancer June 18th, 2013
New Method to Synthesize Zinc Oxide Nanoparticles with High Catalytic Activity June 18th, 2013
Production of Polyaniline Biosensors Modified with Conductive Polymer Composites June 18th, 2013
Which qubit my dear? New method to distinguish between neighbouring quantum bits June 18th, 2013
Controlling magnetic clouds in graphene June 14th, 2013
Data Highways for Quantum Information June 13th, 2013
Spintronics approach enables new quantum technologies June 4th, 2013