QUANTA

Friday, March 18, 2011


Quantum pen for single atoms is step toward large-scale quantum computing

March 18, 2011 

Physicists at the Max Planck Institute of Quantum Optics have succeeded in manipulating atoms individually in a lattice of light and arranging them in arbitrary patterns, says the team of Stefan Kuhr and Immanuel Bloch — an important step towards large-scale quantum computing, they suggest.

A register of hundreds of addressable quantum particles could serve for storing and processing of quantum information in a quantum computer.

The scientists loaded laser-cooled rubidium atoms into an artificial crystal of light. These optical lattices were generated by superimposing several laser beams. Starting from an arrangement of 16 atoms that were strung together on neighboring lattice sites, the scientists studied what happens when the height of the lattice is ramped down so far that the particles are allowed to “tunnel” according to the rules of quantum mechanics.

They showed that each site of the optical lattice can be filled with exactly one atom. With the help of a microscope, the scientists could visualize the shell-like structure of this “Mott insulator” atom-by-atom. They could address and change the spin of single atoms with laser light down to a diameter of 600 nanometers and “write” them in arbitrary two-dimensional patterns.

“A Mott insulator with exactly one atom per lattice site acts as a natural quantum register with a few hundred quantum bits, the ideal starting point for scalable quantum information processing,” explains Kuhr.

Kuhr suggests that a further step is to realize elementary logical operations between two selected atoms in the lattice to create quantum gates.


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Publisher and/or Author and/or Managing Editor:__Andres Agostini ─ @Futuretronium at Twitter! Futuretronium Book at http://3.ly/rECc