Proton MAS NMR Spectra at High Magnetic Fields and High Spinning Frequencies: Spectral Simulations Using Floquet Theory

Siddharth Ray; Elena Vinogradov; Gert Jan Boender; Shimon Vega

doi:10.1006/jmre.1998.9998

Proton MAS NMR Spectra at High Magnetic Fields and High Spinning Frequencies: Spectral Simulations Using Floquet Theory

Siddharth Ray, Elena Vinogradov, Gert Jan Boender, Shimon Vega

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Proton magic angle spinning (MAS) spectra of a model spin system, consisting of six protons, were calculated for different values of the external magnetic field and the spinning frequencies. Floquet theory was used to evaluate these spectra. The reduction of the effective homonuclear dipolar interaction for increasing spinning frequency was investigated. The influence of an increase of the external magnetic field and the spinning frequencies on the linewidths of the centerband spectra is discussed. This Floquet description of the rotating proton spin system will assist us in our calculations of the CPMAS spin dynamics of a low abundant spin interacting with a set of coupled protons.

Original language	English (US)
Pages (from-to)	418-426
Number of pages	9
Journal	Journal of Magnetic Resonance
Volume	135
Issue number	2
DOIs	https://doi.org/10.1006/jmre.1998.9998
State	Published - Dec 1998

ASJC Scopus subject areas

Biophysics
Biochemistry
Nuclear and High Energy Physics
Condensed Matter Physics

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title = "Proton MAS NMR Spectra at High Magnetic Fields and High Spinning Frequencies: Spectral Simulations Using Floquet Theory",

abstract = "Proton magic angle spinning (MAS) spectra of a model spin system, consisting of six protons, were calculated for different values of the external magnetic field and the spinning frequencies. Floquet theory was used to evaluate these spectra. The reduction of the effective homonuclear dipolar interaction for increasing spinning frequency was investigated. The influence of an increase of the external magnetic field and the spinning frequencies on the linewidths of the centerband spectra is discussed. This Floquet description of the rotating proton spin system will assist us in our calculations of the CPMAS spin dynamics of a low abundant spin interacting with a set of coupled protons.",

author = "Siddharth Ray and Elena Vinogradov and Boender, {Gert Jan} and Shimon Vega",

note = "Funding Information: This work was supported by the Israeli Science Foundation. The authors thank Dr. R. Wind and Dr. A. J. Vega for fruitful discussions concerning the proton linewidths in MAS experiments.",

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T1 - Proton MAS NMR Spectra at High Magnetic Fields and High Spinning Frequencies

T2 - Spectral Simulations Using Floquet Theory

AU - Ray, Siddharth

AU - Vinogradov, Elena

AU - Boender, Gert Jan

AU - Vega, Shimon

N1 - Funding Information: This work was supported by the Israeli Science Foundation. The authors thank Dr. R. Wind and Dr. A. J. Vega for fruitful discussions concerning the proton linewidths in MAS experiments.

PY - 1998/12

Y1 - 1998/12

N2 - Proton magic angle spinning (MAS) spectra of a model spin system, consisting of six protons, were calculated for different values of the external magnetic field and the spinning frequencies. Floquet theory was used to evaluate these spectra. The reduction of the effective homonuclear dipolar interaction for increasing spinning frequency was investigated. The influence of an increase of the external magnetic field and the spinning frequencies on the linewidths of the centerband spectra is discussed. This Floquet description of the rotating proton spin system will assist us in our calculations of the CPMAS spin dynamics of a low abundant spin interacting with a set of coupled protons.

AB - Proton magic angle spinning (MAS) spectra of a model spin system, consisting of six protons, were calculated for different values of the external magnetic field and the spinning frequencies. Floquet theory was used to evaluate these spectra. The reduction of the effective homonuclear dipolar interaction for increasing spinning frequency was investigated. The influence of an increase of the external magnetic field and the spinning frequencies on the linewidths of the centerband spectra is discussed. This Floquet description of the rotating proton spin system will assist us in our calculations of the CPMAS spin dynamics of a low abundant spin interacting with a set of coupled protons.

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Proton MAS NMR Spectra at High Magnetic Fields and High Spinning Frequencies: Spectral Simulations Using Floquet Theory

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