方法采用相位敏感方法消除相位误差,保存反转恢复序列中磁化矢量的极性。
Methods The phase sensitive method was used to remove the phase errors and restore the polarity of theinversionrecovery data .
第一偏置结构,具有第一磁化矢量,定位于临近传感器叠层,用来产生偏置检测层的偏置场;
A first biasing structure having a first magnetization vector is positioned adjacent to the sensor stack to produce a biasing field that biases the sensing layer.
以及第二偏置结构,具有第二磁化矢量,相对于检测层定位在传感器叠层中,用来对抗在检测层的中心部分的偏置场。
A second biasing structure having a second magnetization vector is positioned within the sensor stack relative to the sensing layer to counter the biasing field at a center of the sensing layer.
介质磁化过程遵循矢量磁滞模型,用磁头材料的测量值作为磁头的磁滞模型。
The vector magnetic hysteresis model is used as the magnetization process of the medium and the measured values of the head material are used as the head's hysteresis model.
本文推出了磁化强度矢量与极化强度矢基的相对论变换关系,证明了M和P可构成两个洛伦兹不变量,从而可加深对M和P的理解。
The transformation of polarization vector and magnetization vector is derivedand thereafter two Lorentz invariants containing M and Pare proved.
首先推导出纵向弛豫和横向弛豫与磁化强度矢量偏转角关系的数学表达式。
A mathematical formula of the relation between longitudinal relaxation or transverse relaxation and the flip Angle of magnetization vector was deduced and its programme was designed.
研究均匀磁场中电子的极化矢量、磁矩、能量和顺磁磁化率的统计平均值,以及在低温、强磁场极限和高温、弱磁场极限下的统计行为。
The statistical average value of electronic polarization vector, magnetic moment, energy and paramagnetic susceptibility, which are proceeded under constant magnetic field, is discussed.
研究均匀磁场中电子的极化矢量、磁矩、能量和顺磁磁化率的统计平均值,以及在低温、强磁场极限和高温、弱磁场极限下的统计行为。
The statistical average value of electronic polarization vector, magnetic moment, energy and paramagnetic susceptibility, which are proceeded under constant magnetic field, is discussed.
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