Quantitative determination of the adiabatic condition using force-detected nuclear magnetic resonance

by: Casey W Miller, John T Markert

Physical Review B (Condensed Matter and Materials Physics), Vol. 72, No. 22. (2005)

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Abstract

The adiabatic condition governing cyclic adiabatic inversion of proton spins in a micron-sized ammonium chloride crystal was studied using room temperature nuclear magnetic resonance force microscopy. A systematic degradation of signal to noise was observed as the adiabatic condition became violated. A theory of adiabatic following applicable to cyclic adiabatic inversion is reviewed and implemented to quantitatively determine an adiabaticity threshold (H1)2/(osc)=6.0 from our experimental results.

@article{citeulike:1322846, abstract = {The adiabatic condition governing cyclic adiabatic inversion of proton spins in a micron-sized ammonium chloride crystal was studied using room temperature nuclear magnetic resonance force microscopy. A systematic degradation of signal to noise was observed as the adiabatic condition became violated. A theory of adiabatic following applicable to cyclic adiabatic inversion is reviewed and implemented to quantitatively determine an adiabaticity threshold (H1)2/(osc)=6.0 from our experimental results.}, author = {Miller, Casey W. and Markert, John T. }, citeulike-article-id = {1322846}, doi = {10.1103/PhysRevB.72.224402}, journal = {Physical Review B (Condensed Matter and Materials Physics)}, keywords = {mrfm, nmr}, number = {22}, posted-at = {2007-05-23 20:51:13}, priority = {2}, publisher = {APS}, title = {Quantitative determination of the adiabatic condition using force-detected nuclear magnetic resonance}, url = {http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal\&id=PRBMDO000072000022224402000001\&idtype=cvips\&gifs=yes}, volume = {72}, year = {2005} }

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TY - JOUR ID - citeulike:1322846 L3 - citeulike-article-id:1322846 TI - Quantitative determination of the adiabatic condition using force-detected nuclear magnetic resonance JF - Physical Review B (Condensed Matter and Materials Physics) VL - 72 IS - 22 PB - APS N2 - The adiabatic condition governing cyclic adiabatic inversion of proton spins in a micron-sized ammonium chloride crystal was studied using room temperature nuclear magnetic resonance force microscopy. A systematic degradation of signal to noise was observed as the adiabatic condition became violated. A theory of adiabatic following applicable to cyclic adiabatic inversion is reviewed and implemented to quantitatively determine an adiabaticity threshold (H1)2/(osc)=6.0 from our experimental results. KW - mrfm KW - nmr AU - Miller, Casey AU - Markert, John PY - 2005/// UR - http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000072000022224402000001&idtype=cvips&gifs=yes ER -

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