One of those nice if obvious-after-the-fact results -- quantum critical correlations are preserved under the addition of 1/f noise. It's obvious after the fact because (a) 1/f noise has power law correlations in time, so it's "critical" in some sense; (b) more precisely, the 1/f noise term appears in the Keldysh action in precisely the same way as the "equilibrium" noise term -- from the FDT -- that drives the superconductor-insulator transition in a Josephson junction.
Quantum critical states and phase transitions in the presence of non-equilibrium noise
E. della Torre et al., Nature Physics doi:10.1038/nphys1754 [also arXiv:0908.0868]
Sunday, August 29, 2010
Monday, August 23, 2010
"If you cannot be kind, at least have the decency to be vague"
I'm glad blogger finally got around to doing something about the comment spam. On the other hand, a small fraction of it will be missed.
I intend to revive this blog because I'm spending the semester in Santa Barbara, and would like to avoid spamming the population of Urbana with papers that I think are interesting.
On that note -- there actually are physicists called "D'Eath" and "Payne" who published a series of papers together.
I intend to revive this blog because I'm spending the semester in Santa Barbara, and would like to avoid spamming the population of Urbana with papers that I think are interesting.
On that note -- there actually are physicists called "D'Eath" and "Payne" who published a series of papers together.
Subscribe to:
Posts (Atom)