Efficiently Producing Quantum Dots

generica1 writes "The Edmonton Journal is reporting on the University of Alberta's National Institute for Nanotechnology's recent invention of a new method to produce quantum dots — what are currently the world's smallest quantum dots, possibly allowing for startling increases in the efficiency of semiconductor-based equipment. 'Roughly speaking, we predict there could be a 1,000-time reduction in power consumption with electronic computers built in this new way,' said Robert Wolkow, a physicist at the University of Alberta and leader of the team behind the breakthrough. Read the article for a description of the wave-like phenomenon employed by Wolkow's team to accomplish a vastly lower power consumption during the transfer of electrons."

Re:Read the original article, not this BS

[durrr]

"Previously developed quantum dots range in size from two to 10 nanometres -- a nanometre is one-billionth of a metre -- and contain groupings of 1,000 or more atoms."

"The quantum dot developed by Wolkow's team is much smaller; less than a nanometre in diameter and containing only one or two particles."

I guess your guess is wrong, because atoms are clearly not subatomic particles.

Re:Read the original article, not this BS

[kprsa]

They also claim that Physical Review Letters, is considered the world's premier physics journal. By whom? It was 12th in the ranking in 2007.

By most of the physicist I know. Publishing in higher ranked journals like Nature Physics etc. usually is good news, but good research in physics is typically awarded by a PRL paper. Actually, the existence of a one main authorship in PRL is a criterion of quality of a PhD study in my lab. Cheers, K

Re:Read the original article, not this BS

[digitally404]

As someone who works in the field of nanotechnology, I assure you that this development is definitely a milestone.

Some of the major developments in quantum computing and photonics relies on cheap and efficient development of quantum dots.