The development of the gravity gradiometer is described simply in this paper, and the measuring principle and development experience of the rotating accelerometer gravity gradiometer are emphatically discussed. On the basis of researches on the existing airborne gravity gradiometer, the prospects of the airborne gravity gradiometer are also presented.
[1] 蔡体菁,周百令.重力梯度仪的现状和前景[J].中国惯性技术学报,1999,(1).
[2] Metzger E H. Development Experience of Gravity Gradiometer System[M].IEEE,1982.
[3] Hofemeyer G M, Affleck C A. Rotating Acceleraomter Gradiometer:US,5,357,802.1994-10-25.
[4] 张昌达.利用原子干涉仪测量重力加速度[J].物探与化探,2000,24(5).
[5] Boggs D B, Dransfield M H. Analysis of errors in gravity derived from the Falcon airborne gravity gradiometer.Airborne Gravity 2004, ASEG-PESA,2004.
[6] Jekeli C. Airborne Gradiometry Error Analysis[J].Surveys in Geophysics,2006(27):257.
[7] Edwin H van Leeuwen. Airborne Gravity Gradiometer[J].ATSE Focus,2001(119).
[8] 周坚鑫,刘浩军,王守坦,等.国外航空重力测量在地学中的应用[J].物探与化探,2004,28(2):119.
[9] 曾华霖.重力梯度测量的现状及复兴[J].物探与化探,1999,23(1):1.
[10] 管志宁,郝天珧,姚长利,等.21世纪重力与磁法勘探的展望[J].地球物理学进展,2001,17(2):237.
[11] 张昌达.三颗感受或(和)测量地球引力场的卫星——CHAMP、GRACE、GOCE[J].物探与化探,2005,29(5):377.
[12] 张昌达.几种新型的航空重力测量系统和航空重力梯度测量系统[J].物探与化探,2005,29(6):471.
[13] 张洪瑞,范正国.2000年来西方国家航空物探技术的若干进展[J].物探与化探,2007,31(1):1.