Суперкомпьютерные технологии на квантовых точках (англ.)
Полупроводниковые наноструктуры позволяют хранить информацию в виде квантов. Это требует на порядки меньших энергозатрат, а следовательно позволит существенно повысить мощность вычислительных систем.
Physicists have found a way to drastically prolong the shelf life of quantum bits, the 0s and 1s of quantum computers. A quantum dot is a semiconductor nanostructure that is one candidate for creating quantum bits. The scientists, including the University of Michigan's Duncan Steel, used lasers to elicit a previously undiscovered natural feedback reaction that stabilizes the quantum dot's magnetic field, lengthening the stable existence of the quantum bit by several orders of magnitude, or more than 1000 times.
см. Photonics
Physicists have found a way to drastically prolong the shelf life of quantum bits, the 0s and 1s of quantum computers. A quantum dot is a semiconductor nanostructure that is one candidate for creating quantum bits. The scientists, including the University of Michigan's Duncan Steel, used lasers to elicit a previously undiscovered natural feedback reaction that stabilizes the quantum dot's magnetic field, lengthening the stable existence of the quantum bit by several orders of magnitude, or more than 1000 times.
см. Photonics
см. Photonics