Automatic searching and shimming method based uneven magnetic field fitting linearity

A uniform magnetic field and automatic search technology, applied in the direction of measuring magnetic variables, measuring devices, instruments, etc., can solve problems such as distortion, time-consuming, and complicated process of making shimming coil field diagrams

Active Publication Date: 2014-03-26
武汉中科云楚科技有限公司
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  • Abstract
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  • Application Information

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Problems solved by technology

This introduces two problems: 1) The lock level or FID area is used as a convenient and intuitive basis for judging whether the magnetic field is good or bad, and it may not be able to achieve a good shimming effect (spectral linear standard)
The process of making the shim coil field diagram is a bit complicated and time-consuming
At the same time, the imaging of the spatial influence of the shim coil must be carried out in a relatively uniform magnetic field environment. A magnetic field with poor uniformity will easily distort the measured data of the shim coil field map and affect the fitting.

Method used

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  • Automatic searching and shimming method based uneven magnetic field fitting linearity
  • Automatic searching and shimming method based uneven magnetic field fitting linearity
  • Automatic searching and shimming method based uneven magnetic field fitting linearity

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Embodiment 1

[0100] Such as figure 1 As shown in the flowchart, an automatic search shimming method based on inhomogeneous magnetic field fitting line shape includes the following steps:

[0101] Step 1. Select the shim coil group: select the shim coil group that needs room temperature shimming (j=1~N, N is the number of selected shim coils, for example: Z1 / Z2 / Z3 / Z4 / Z5 / Z6, N=6);

[0102] Step 2, fitting the search step and convergence condition of the shim coil: using the quadratic function relationship I=Ax of the quadratic moment size I of the absorption line shape of the spectrogram and the current increment x of the shim coil 2 +Bx+C (where A, B, and C are quadratic function coefficients) fit the search step d of each shim coil j and the convergence condition r j Include the following steps:

[0103] Step 2.1. Select a shim coil a (a=j, j∈{1~N}), and set its shim current increment x a =0 and directly use the single pulse sequence to sample, so as to obtain the original data;

[...

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Abstract

The invention discloses an automatic searching and shimming method based uneven magnetic field fitting linearity. The method includes: using a gradient echo pulse sequence to measure the uneven image of a spatial magnetic field, using the same to fit and represent the virtual spectrogram line and related performance indexes of the current magnetic field evenness; using the related performance indexes of the virtual spectrogram line as the evaluation standard for obtaining good or bad magnetic field evenness according to the multidimensional spatial vectors built by a shimming coil, performing multidimensional descending simplex method iteration search according to the evaluation standard, and returning the optimal shimming current. The method has the advantages hat during shimming, the performance indexes such as half-width and symmetry of spectrum can be fully considered; compared with the gradient shimming using gradient echo imaging, the shimming method does not need to consider measurement and fitting the shimming coil field graphs, and the shimming difficulty and limit requirements by the aid of gradient imaging are lowered; automatic fitting and searching and convergence conditions allows the method to get rid of complex manual configuration, and shimming speed and efficiency are increased.

Description

technical field [0001] The invention relates to a shimming technology of a nuclear magnetic resonance spectrometer, and more particularly relates to an automatic search shimming method based on an inhomogeneous magnetic field fitting line shape. It is suitable for high-resolution NMR experiment shimming. Background technique [0002] For modern liquid nuclear magnetic resonance (NMR) spectrometers, the resolution is an important indicator, and one of the main factors affecting the resolution of the spectrum is the spatial uniformity of the magnetic field. Since the NMR signal broadening caused by the inhomogeneity of the static magnetic field will inevitably lead to significant errors in the experimental results, so since the discovery of the NMR phenomenon, how to improve the uniformity (shimming) of the static magnetic field has always been a very important research work . [0003] With the development of spectrometer technology in recent decades, the current automatic s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R33/3875
Inventor 刘朝阳宋侃鲍庆嘉陈黎刘造
Owner 武汉中科云楚科技有限公司
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