| 1. | Spectral representation of the full gravity tensor
全张量重力梯度数据的谱表示方法 |
| 2. | Borehole gravity gradiometer
井下重力梯度仪 |
| 3. | Anomaly of gravity gradient
重力梯度异常 |
| 4. | Moving coil gradiometer
动圈重力梯度计 |
| 5. | Gravity gradient survey
重力梯度测量 |
| 6. | Paleogeographic data suggest the first occurrence of the taihangshan gravity lineament was initially formed during the early cretaceous , which is coeval with the peak of mesozoic magmatism in this region
岩相古地理分析说明太行山重力梯度带的雏形形成于早白垩世,与华北中生代岩浆活动的高峰相吻合。 |
| 7. | The deposit is regional located in the place of the sudden changing of gravity - gradient zone in the direction and intensity . the area also shows high geochemical background of au , ag , as , sb and hg elements
区域上矿床处于重力梯度转向及其梯度值突变部位,有au 、 ag 、 as 、 sb 、 hg等元素的地球化学高背景区。 |
| 8. | Given the fact that mesozoic magmatism was closely related to the lithospheric thinning , it is proposed that the diachronous lithospheric thinning is the main mechanism by which the taihangshan gravity lineament was formed
由于岩浆作用与岩石圈减薄作用密切相关,因此认为华北岩石圈减薄的时空不均一性是形成太行山重力梯度带的重要机制。 |
| 9. | The structural vibrational equations for the former are also depicted . the disturbance torques imparted by space environment are analyzed , which include gravity gradient torque , solar pressure torque , aerodynamic torque and magnetic torque
对作用在卫星上的各种空间环境力矩进行了分析,包括重力梯度力矩、太阳光压力矩、气动力矩、剩磁力矩等。 |
| 10. | According to the direction and damping characteristic of the torque produced by the magnetorquers , the three axis attitude control schemes of gravity gradient satellite and other satellite with damper is presented . the control coefficients are determined by the dynamic characteristics of geomagnetic intensity , so the attitude control precision is improved
根据磁力矩在地磁场中的定向阻尼特性,提出了磁控重力梯度卫星和携带阻尼器的非重力梯度姿态控制规律,根据地磁场强度变化规律选择控制系数,提高卫星的姿态控制精度。 |
