使用测量的k空间轨迹对多维选择性激发脉冲进行补偿。

Compensation of multi-dimensional selective excitation pulses using measured k-space trajectories.

作者信息

Takahashi A, Peters T

机构信息

McConnell Brain Imaging Centre, Montreal Neurological Institute, Department of Biomedical Engineering, McGill University, Quebec, Canada.

出版信息

Magn Reson Med. 1995 Sep;34(3):446-56. doi: 10.1002/mrm.1910340323.

DOI:10.1002/mrm.1910340323

PMID:7500885

Abstract

Multidimensional spatially selective excitation pulses rely on the accuracy of gradient waveforms to achieve desired excitation volumes. Unfortunately, the high gradient slew-rates and magnitudes required by these pulses often lead to distortion of the waveforms produced by imaging systems resulting in poor selection profiles. In this paper, a k-space calibration procedure, used to determine the actual trajectory produced by the scanner's field gradients, is extended to two spatial dimensions. This measured information is then incorporated in a selective excitation design technique for correcting the RF pulse envelopes to compensate for gradient waveform induced distortion of the excitation volumes.

摘要

多维空间选择性激发脉冲依赖于梯度波形的准确性来实现所需的激发体积。不幸的是，这些脉冲所需的高梯度 slew 率和幅度常常导致成像系统产生的波形失真，从而导致选择轮廓不佳。在本文中，一种用于确定扫描仪场梯度产生的实际轨迹的 k 空间校准程序被扩展到两个空间维度。然后，将该测量信息纳入一种选择性激发设计技术中，用于校正射频脉冲包络，以补偿梯度波形引起的激发体积失真。

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使用测量的k空间轨迹对多维选择性激发脉冲进行补偿。

Compensation of multi-dimensional selective excitation pulses using measured k-space trajectories.

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