Force-detected magnetic resonance independent of field gradients

Details Force-detected magnetic resonance independent of field gradients Force-detected magnetic resonance independent of field gradients

1997-06-11

2000-08-08

Oda, Christine K.

Electricity: measuring and testing

Particle precession resonance

G01V 300

Patent

active

061006874

ABSTRACT:
A system and method for force-detected NMR measurements by applying a spatially homogeneous field at a site of the sample. A composite magnet assembly is implemented to produce the homogeneous field and optimize the detection sensitivity.

REFERENCES:
patent: 5166615 (1992-11-01), Sidles
patent: 5266896 (1993-11-01), Rugar et al.
patent: 5397987 (1995-03-01), Garritano
patent: 5629624 (1997-05-01), Carlson et al.
"Signal-To-Noise Ratios in Inductive & Mechanical Detection of Magnetic Resonance",John A. Sidles and Daniel Rugar, May 31, 1993, The American Physical Society (1993).
"Low-temperature Magnetic Resnance Force Detection", K. Wago et al., Jul. 25, 1995, American Vacuum Society (1996).
"Sub-surface Imaging with the Magnetic Resonance Force Microscope", P.C. Hammel, et al., Journal of Low Temperature Physics, vol. 101, Nos. 112, 1995.
"The Theory of Oscillator-Coupled Magnetic Resonance with Potential Applications to Molecular Imaging", John A. Sidles, et al., American Institute of Physics, 1992.
"First Images From a Magnetic Resonance Force Microscope", O. Zuger et al., American Institute of Physics, 1993.
"RMP Colloquia", J.A. Sidles, et al., Reviews of Modern Physics, vol. 67, No. 1, Jan. 1995.
"Force Detection and Imaging in Magnetic Resonance", Constantino S. Yannoni, et al., Almaden Research Center.
"Force Detection of Nuclear Magnetic Resonance", D. Rugar, et al., Science, vol. 264, Jun. 1994.
"Noninductive Detection of Single-Proton Magnetic Resonance", J.A. Sidles, American Institute of Physics Jan. 23, 1991.
Mechanical Detection of Magnetic Resonance, Rugar, C.S. et al., Letters To Nature Dec. 10, 1992.

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