Author:
Everitt C. W. F.,Adams M.,Bencze W.,Buchman S.,Clarke B.,Conklin J. W.,DeBra D. B.,Dolphin M.,Heifetz M.,Hipkins D.,Holmes T.,Keiser G. M.,Kolodziejczak J.,Li J.,Lipa J.,Lockhart J. M.,Mester J. C.,Muhlfelder B.,Ohshima Y.,Parkinson B. W.,Salomon M.,Silbergleit A.,Solomonik V.,Stahl K.,Taber M.,Turneaure J. P.,Wang S.,Worden P. W.
Reference22 articles.
1. R.J. Adler, A.S. Silbergleit, General treatment of orbiting gyroscope precession. Int. J. Theor. Phys. 39(5), 1291–1316 (2000)
2. B.M. Barker, R.F. O’Connell, Phys. Rev. D 2, 1428 (1970)
3. J.V. Breakwell, The Stanford relativity gyroscope experiment (F): correction to the predicted geodetic precession of the gyroscope resulting from the Earth’s oblateness, in Near Zero: New Frontiers of Physics, ed. by J.D. Fairbank, B.S. Deaver, C.W.F. Everitt, P.F. Michelson (Freeman, New York, 1988), pp. 685–690
4. B. Cabrera, Near zero magnetic fields with superconducting shields, in Near Zero: New Frontiers in Physics (Freeman, New York, 1982)
5. T.W. Darling, Electric Fields on Metal Surfaces at Low Temperatures. School of Physics, Parkville, Victoria 3051, Australia, University of Melbourne, p. 88 (1989)
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献