Electron Spin Relaxation Near a Micron-Size Ferromagnet
- 13 December 2001
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 87 (27) , 277602
- https://doi.org/10.1103/physrevlett.87.277602
Abstract
Magnetic resonance force microscopy was used to study the behavior of small ensembles of unpaired electron spins in silica near a micrometer-size ferromagnetic tip. Using a cantilever-driven spin manipulation protocol and a magnetic field gradient greater than , signals from as few as 100 net spins within a 20 nm thick resonant slice could be studied. A sixfold increase in the spin-lattice relaxation rate was found within 800 nm of the ferromagnet, while no effect due to silica surface proximity was detected. The results are interpreted in terms of Larmor-frequency magnetic field fluctuations emanating from the ferromagnet.
Keywords
This publication has 24 references indexed in Scilit:
- Electron Spin and Optical Coherence in SemiconductorsPhysics Today, 1999
- A silicon-based nuclear spin quantum computerNature, 1998
- Force-detected magnetic resonance without field gradientsSolid State Nuclear Magnetic Resonance, 1998
- Observation of ferromagnetic resonance in a microscopic sample using magnetic resonance force microscopyApplied Physics Letters, 1996
- Quantum ComputationScience, 1995
- Magnetic resonance force microscopyReviews of Modern Physics, 1995
- Force Detection of Nuclear Magnetic ResonanceScience, 1994
- A Potentially Realizable Quantum ComputerScience, 1993
- Mechanical detection of magnetic resonanceNature, 1992
- Folded Stern-Gerlach experiment as a means for detecting nuclear magnetic resonance in individual nucleiPhysical Review Letters, 1992