I had seen these results in a previous talk, but now the paper is out in Nature Science. Charles Marcus’s group at Harvard has been working on building a qubit from a semiconductor quantum dot. One of the difficulties for this type of qubit is that the qubit couples via a hyperfine interaction to surrounding nuclei. If you don’t do anything about this hyperfine interaction, this causes a typical Rabi flopping experiment to exhibit decoherence rates of 10 nanoseconds. Way to short to make a useful quantum computer! But what is nice about the hyperfine decoherence mechanism, is that it is a constant coupling which can be overcome by doing a spin echo experiment. In the above paper, Marcus and colleagues show that with appropriate spin echo techniques, they get lifetimes of 1 microseconds. Nothing like that many orders of magnitude improvement, no?
O brave new quantum world!
Well I (based on what I have been doing) should like this one a lot yet it’s still way to go to get to the seminconductor interacting qubits with qdots… I guess
But then long ways are good.
PS. You mean Science not Nature right [I can’t check the link now anyway as I am working from home with no Science online subscription to boot 🙁 ]
Jet-lag appears to only have consequence for my brain and not my body.