Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2004-02-18
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
To be published in Israel Journal of Chemistry, 9 pages, Latex file, 6 figures, see more figures at http://theory.lanl.gov
Scientific paper
We propose a novel mechanism for single spin detection based on the 1/f spin current noise. We postulate the 1/f spin noise for the tunneling current, similar to the ubiquitous 1/f noise in magnetic systems. Magnetic coupling between tunneling electrons and localized spin S then leads to the peak at Larmor frequency in the power spectrum of the electric current fluctuations $I^2_{\omega}$. The elevated noise in the current spectrum will be spatially localized near the magnetic site. The difference in the power spectra taken at the Larmor frequency and elsewhere would reveal the peak in the spectrum. We argue that signal to noise ratio for this mechanism is on the order one. In addition we discuss the asymmetric lineshapes observed regularly with this measurement. We show that such lineshapes are in accordance to the random sampling done with the tunneling electrons. Yet, this predicts a linewidth at least one order of magnitude larger than observed experimentally which is likely to be due to electrostatic repulsion between the tunneling electrons and temporal correlations in the tunneling process.
Balatsky Alexander V.
Manassen Yishai
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