GGP - Publications on Superconducting Gravimetry

Link to Publications on Related Topics

In sections: A B C D E F G H I J K L M N O P R S T V W X-Y Z
Listed alphabetically by first author; the first reference being highlighted. 

As of 04/06/30, there are about 268 references.

Achilli, V., Baldi, P., Casula, G., Errani, M., Focardi, S., Guerzoni, M., Palmorani, F., and Raguni, G., 1995. A calibration system for superconducting gravimeters, Bull. Géodésique, 69, 73-80.

Aldridge, K. D. and Cannon, W. H., 1993. A search for evidence of short period polar motion in VLBI and supergravity observations, in Dynamics of the Earth's Deep Interior and Earth Rotation, Geophys. Monograph Series, Am. Geophys. Union, 72, 17-24.

Aldridge, K., Crossley, D. J., Mansinha, L., and Smylie, D., 1991. GGP The Global Geodynamics Project, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 169-196, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Amalvict M., Hinderer, J. and Boy J.-P., 1999, A comparative analysis between an absolute gravimeter (FG5-206) and a superconducting gravimeter (GWR C026) in Strasbourg: news results on calibration and long term gravity changes; Bolletino di Geofisica, 40, (2-3).

Amalvict, M., Hinderer, J., Boy, J.-P., and Gegout, P., 2001. A 3 year comparison between a superconducting gravimeter (GWRC026) and an absolute gravimeter (FG5#206) in Strasbourg (France), J. Geod. Soc. Jap., 47, 334-340.

Amalvict M., McQueen H. and Govind R. 2001, Absolute Gravity Measurements and Calibration of SG CT #31 at Canberra, 1999-2000, .J. Geod. Soc. Jap., 47, 410-416.

Amalvict M., Hinderer J., Gegout P., Rosat S. and Crossley D., 2002. On the use of AG data to calibrate SG instruments in the GGP network, Bull. d'Inf. Marees Terr. 135, 10621-10626.

Amalvict, M., Hinderer, J., and Rozsa, S., 2004. Absolute gravity measurements and GPS observations along a profile crossing the Rhine Graben from the Vosges to the Black Forest,  EOS. Trans. AGU, 85(17), Joint Assembly Suppl., Abstract G41C-06.

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Baldi, P., Casula, G., Focardi, S., Palmonari, F., 1995. Tidal analysis of data recorded by a superconducting gravimeter, Annali di Geofisica, 38 (2), 161-166.

Banka, D. and Crossley, D., 1995. SG record at Cantley, Canada: the short period part of the spectrum, Bull. Inf. Marées Terrestres, 122, 9148-9160.

Banka, D. and Crossley, D., 1995. Noise levels for superconducting gravimeters at seismic frequencies, in International Union Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B341.

Banka, D. and Crossley, D., 1995, Signal-to-noise ratios of superconducting gravimeters at seismic frequencies, Eos, Transactions, American Geophysical Union, 76, (46, Suppl.), 368.

Banka, D., 1997. Noise levels of superconducting gravimeters at seismic frequencies, PhD thesis, GDMB-Informationgesellschaft mbH, Clausthal, Germany.

Banka, D. and Crossley, D., 1999, Noise levels of superconducting gravimeters at seismic frequencies, Geophys. J. Int., 139, 87-97.

Banka, D., Crossley, D., and Jentzsch, G., 1997. The seismic noise magnitude and its application to superconducting gravimeters, Eos, Trans. Am. Geophys. Union, 78 (46, Suppl.), 462.

Banka, D., Jentzsch, G. and Zürn, W., 1998. Investigation of superconducting gravimeter records in the frequency range of the free oscillations of the Earth, in Proc.13th Int. Symp. Earth Tides, Brussels, 641-649, eds Ducarme, B. and Pâquet, P., Observatoire Royal de Belgique, Brussels.

Bower, D. R. and Pagiatakis, S. D., 1998. Characterizing the Canadian absolute gravity site for precipitation effects, in Proc. 13th Int. Symp. Earth Tides, Brussels, 13, 503-509, eds Ducarme, B. and Pâqet, P., Observatoire Royal de Belgique, Brussels.

Bower, D. R., and Courtier, N., 1998. Precipitation effects on gravity measurements at the Canadian absolute gravity site, Phys. Earth Planet Int., 106, 353-369.

Bower, D. R., Liard, J., Crossley, D. J. and Bastien, R., 1991. Preliminary calibration and drift assessment of the superconducting gravimeter GWR12 through comparison with the absolute gravimeter JILA2, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 129-142, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Boy, J.-P. and Chao, B. F. , 2002. Effects of the vertical structure of the atmosphere on gravity at satellite altitude, Geophys. Res. Abs., EGS 27 General Assembly, 4, EGS02-A-03837

Boy, J.-P. and B. F. Chao, 2003. Precise evaluation of atmospheric loading effects on Earth's time-variable gravity field, J. Geophys. Res., submitted

Boy, J.-P., Hinderer, J. and Gégout, P., 1998, The effect of atmospheric surface loading on gravity, in: Proc. 13th Int. Symp. Earth Tides, Brussels, 13, 5439-446, eds Ducarme, B. and Pâqet, P., Observatoire Royal de Belgique, Brussels.

Boy, J.-P., Hinderer, J. and Gegout, P., 1998. Global atmospheric loading and gravity, Phys. Earth Planet. Inter., 109, 161-177.

Boy, J.-P., Gegout, P., and Hinderer, J., 2001. Gravity variations and global pressure loading, J. Geod.  Soc. Jap. 47, 1, 267-272.

Boy, J.-P., P. Gegout, and J. Hinderer,  2002. Reduction of surface gravity data from global atmospheric pressure loading, Geophys. J. Int., 149, 534-545.

Boy, J.-P., Llubes, M., Hinderer, J., and Florsch, N., 2003. A comparison of tidal loading models using superconducting gravimeter data, J. Geophys. Res., 108. 2193.

Boy, J.-P., Llubes, M., Ray, R., Hinderer, J., Florsch, N., Rosat, S., Lyard, F., and Letellier, T., 2004. Non-linear oceanic tides observed by superconducting gravimeters in Europe,  J. Geodyn., submitted. 

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Casula, G. and Baldi, P., 1998. Tidal analysis of data recorded by a superconducting gravimeter in Italy, in: Proceedings of the 13th International Symposium on Earth Tides, Brussels 1997, 611-616, published by Observatoire Royal de Belgique, Brussels.

Casula, G., Baldi, P., Focardi, S., Marson, I., and Palmonari, F., 1995. The superconducting GWR T015 gravimeter calibration, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B31.

7 TI: The gravimetric station of Brasimone; results of an intercomparison experiment between gravimeters.
AU: Casula-G; Baldi-P; Hinderer-Jacques; Amalvict-Martine
SO: Cahiers du Centre Europeen de Geodynamique et de Seismologie (ECGS). 17; Pages 137-144. 2000.
PB: Centre Europeen de Geodynamique et de Seismologie, Luxembourg. 2000.

Courtier, N., Ducarme, B., Goodkind, J., Hinderer, J., Imanishi, Y., Seama, N., Sun, H., Merriam, J., Bengert, B., and Smylie, D. E., 2000. Global superconducting gravimeter observations and the search for the translational modes of the inner core, Phys. Earth Planet. Int., 117, 3-20.

Crossley, D., 2004. Geodetic implications of mass transfer in the deep Earth, EOS, Trans. AGU, 85 (17), Joint Assembly Suppl., Abstract U33A-05

Crossley, D. and Hinderer, J., 1995. Global Geodynamics Project - GGP: Status report 1994, in: Proc. 2nd IAG Workshop on non-tidal gravity changes: Intercomparison between absolute and superconducting gravimeters, Cahiers du Centre European de Geodynamique et de Sismologie, Luxembourg, 11, 244-274.

Crossley, D., and S. Xu., 1998. Analysis of superconducting gravimeter data, from Table Mountain, Colorado, Geophys. J. Int., 135, 835-844.

Crossley, D., and Hinderer, J., 2002. GGP Ground Truth for Satellite Gravity Missions, Bull. d'Inf. Marées Terr., 136, 10735-10742.

Crossley, D. J., Hinderer, J., and Jensen, O. 1993. Stacking superconducting gravimeter records for ₁S₁, Seventh meeting of the EUG, Strasbourg, Terra Abstracts, 5, Suppl. 1, 24.

Crossley, D., Hinderer, J., Jensen, O. and Xu, H, 1993. A slewrate detection criterion applied to SG data processing, Bull. d' Inf. Marées Terr., 117, 8675-8704.

Crossley, D. J., Jensen, O. G. and Hinderer, J., 1995. Effective barometric admittance and gravity residuals, Phys. Earth planet. Int., 90, 221-241.

Crossley, D. J., Xu, S. and van Dam, T., 1997, Comprehensive analysis of 2 years of SG data from table mountain, Colorado, in: Proc. 13th International Symposium on Earth Tides, Brussels 1997, 659-668, published by Observatoire Royal de Belgique, Brussels.

Crossley, D. J., Xu, S. and van Dam, T., 1998, Comprehensive analysis of 2 years of SG data from Table Mountain, Colorado, in: Proc. 13th International Symposium on Earth Tides, eds. B. Ducarme and P. Paquet, 659-668, Brussels.

Crossley D., Hinderer J., Casula G., Francis O., Hsu H.-T., Imanishi Y., Jentsch G., Kaarianen J., Merriam J., Meurers B., Neumeyer J., Richter B., Shibuya K., Sato T., and van Dam, T., 1999. Network of superconducting gravimeters benefits a number of disciplines, EOS, Trans. Am. Geophys. U., 80, 121-126.

Crossley, D., Hinderer, J., and Amalvict, M., 2001. A spectral comparison of absolute and superconducting gravimeter data, J. Geod. Soc.  Jap., 47, 373-37.

Crossley D., Hinderer J. and Rosat S., 2002. Using the atmosphere-gravity correlation to derive a time-dependent admittance, Bull. d'Inf. Marées Terr., 136, 10809-10820.

Crossley, D., Hinderer, J., Llubes, M., and Florsch, N., 2003. The potential of ground gravity measurements to validate GRACE data, Advances in Geosciences, 1, 1-7.

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Defraigne, P., 1991. Analyses spectrales des données du gravimetre a supraconductivite, Memoire de Licence, Universite Catholique de Louvain, Louvain-la-Neuve, Belgium, in French, 117 pp.

Defraigne, P., Dehant, V. and Hinderer, J., 1994. Stacking gravity tide measurements and nutation observations in order to determine the complex eigenfrequency of the nearly diurnal free wobble, J. Geophys. Res., 99, 9203-9213.

Defraigne, P., Dehant, V. and Hinderer, J., 1995. Correction to "Stacking gravity tide measurements and nutation observations in order to determine the complex eigenfrequency of the nearly diurnal free wobble, J. Geophys. Res., 100, B2, 2041-2042.

Defraigne, P., Billiau, A., Collin, F., Ducarme, B. and Dehant, V., 1993. Analysis of the superconducting gravimeter data outside the tidal frequency band: around the 50 day and the 14 hr periods, Bull. Inf. Marées Terrestres, 116, 8590-8611.

Dehant, V., Ducarme, B., and Defraigne, P., 1991, New analysis of the superconducting gravimeter data of Brussels, 20th General Assembly, IUGG, Vienna.

Dehant, V., Ducarme, B., and Defraigne, P., 1993. New analysis of the superconducting gravimeter data of Brussels, in Dynamics of the Earth's Deep Interior and Earth Rotation, Geophys. Monograph Series, Am. Geophys. Union, 72, 35-44.

Dehant, V., Bizouard, C., and Loyer, S., 1995. It is possible to detect precession and nutations by using superconducting gravimeter data, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B24.

Dehant, V, M. Feissel, P. Defraigne, F. Roosbeek, and J. Souchay. Could the energy near the FCN and the FICN be explained by luni-solar or atmospheric forcing?, Geophys. J. Int. 130 (2), 535-546. 

Delcourt-Honorez, M., 1991, Total effect of groundwater and internal fluid pressure variations of gravity, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 207-233, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Delcourt-Honorez, M., 1995. The perturbing effect of water level variations on the local gravity, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B31.

Delcourt-Honorez, M., 1995. Hydrogeological effects on the local gravity, in: Proceedings of Second IAG Workshop on non-tidal gravity changes: Intercomparison between absolute and superconducting gravimeters, 11, 161-168, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Defraigne, P., V. Dehant, and J. Hinderer, 1994. Stacking gravity tide measurements and nutation observations in order to determine the complex eigenfrequency of the nearly diurnal free wobble, J. Geophys. Res., 99 (B5), 9203-9213. 

Defraigne, P., V. Dehant, and J. Hinderer, 1995. Correction to stacking gravity tide measurements and nutation observations in order to determine the complex eigenfrequency of the nearly diurnal free wobble, J. Geophys. Res., 100 (B2), 2041-2042. 

De Meyer, F., 1985. Spectral analysis of the observations of a superconducting gravity meter, Bull. d'Inf. Marees Terr., 93, 6157-6183.

De Meyer, F. and Ducarme, B., 1986. Input-output analysis of the observations of superconducting gravity meter, in Proceedings of the 10th International Symposium on Earth Tides, Madrid, 10, 531-554, ed R. Vieira, Consejo Superior de Investigaciones Cientificas.

De Meyer, F. and Ducarme, B., 1991. Modelisation of the non-tidal gravity variations at Brussels, Nontidal gravity changes observed with a superconducting gravimeter, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 145-162, ed C. Poitevin, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

De Meyer, F., Ducarme, B., 1991. Nontidal gravity changes observed with a superconducting gravimeter, in Proceedings of the 11th International Symposium on Earth Tides, Helsinki, 11, 167-184, ed J. Kakkuri.

Dittfeld, H.-J., 1995, Non-tidal features in the SG-record at Potsdam, in Proceedings of Second Workshop: Non-tidal gravity changes Intercomparison between absolute and superconducting gravimeters, 11, 79-88, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Dittfeld, H.-J. and Neumeyer, J., 1995, Observations with a superconducting gravimetric observatory Potsdam, 12th Int. Symp. on Earth Tides, Beijing, China.

Doi, K., Higashi, T. and Nakagawa, I., 1991, An effect of atmospheric changes on the time change of gravity observed by a superconducting gravity meter, J. Geod. Soc. Japan, 37, 1-12.

Ducarme, B., 1983, Tidal gravity parameters at Brussels reconfirmed by a superconducting gravimeter, Phys. Earth Planet Int., 32, 1-3.

Ducarme, B. and Melchior, P., 1998, Fine structure of the tidal spectrum eight lunar nodal waves derived from the 15 years series of observations with the superconducting gravimeter GWR/T3 in Brussels, in: Proc. 13th International Symposium on Earth Tides, Brussels 1997, ***, published by Observatoire Royal de Belgique, Brussels.Proc.

Ducarme, B. and Vandercoilden, L., 2000. First results of the GGP data bank at ICET, Bull. Inf. Marees Terr., 132, 10291-10298.

Ducarme, B., Van Ruymbeke, M., and Poitevin, C., 1985, The superconducting gravimeter of the Royal Observatory of Belgium, Bull. Inf. Marées Terrestres, 94, p. 6338-6343.

Ducarme, B., Van Ruymbeke, M., and Poitevin, C., 1986, Three years of registration with a superconducting gravimeter at the Royal Observatory of Belgium, in Proceedings of the 10th International Symposium on Earth Tides, Madrid, Spain, 10, 113-129, ed R. Vieira, Consejo Superior de Investigaciones Cientificas, Madrid.

Ducarme, B., Makinen, J., Roder, R., and Poitevin, C., 1991. Intercomparison of the absolute gravimeters Jilag-3 and Jilag-5 at Brussels with reference to the superconducting gravimeter TT30, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 73-80, ed Poitevin, C., Cahiers du Centre Europeen de Geodynamique et de Seismologie, Luxembourg.

Ducarme B., De Meyer, F., and Francis., O., 1995. Six month intercomparison of two superconducting gravimeters in Brussels, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B31.

Ducarme, B., and Sun, H.-P., 2001. Tidal gravity results from GGP network in connection with tidal loading and Earth response, J. Geod.. Soc. Jap. 47, 1, 308-315

Ducarme, B., H.-P. Sun, and J.-Q. Xu, 2002. New investigations of tidal gravity results from the GGP network, Bull. Inf. Marees Terr., 136, 10761-10766.

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Elstner, C., Harnish, M., Harnisch, G., Richter, B., Wenzel, G., and Klopping, F., 1995. On the reliability of gravity variations measured by cryogenic gravimeters at Bad Homberg, Germany and Miami, USA, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B31.

Elstner, C., Schwahn, W., Jentzsch, G., Kroner, C., and Weise, A., 1995. Investigations of long-term gravity changes: the elimination of air pressure effects, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B32.

Elstner, C., Jentzsch, G., Kroner, C., Weise, A., and Wenzel, H.-G., 1995. Spatial coherence of air pressure effects on gravity, in Proceedings of Second Workshop: Non-tidal gravity changes Intercomparison between absolute and superconducting gravimeters, 11, 207-221, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

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Falk, R., M. Harnisch, G. Harnisch, I. Nowak, B. Richter, and P. Wolf, 2001. Calibration of the superconducting gravimeters SG103, C023, CD029 and CD030, J. Geod. Soc. Japan, 47 (1), 22-27.

Flach, D., Gommlich, G. and Jentzsch, 1993. Three years of experiences with a movable superconducting gravimeter at the underground installation site in the salt mine ASSE in northern Germany, Bull. Inf. Marées Terrestres, 117, 8639-8648.

Florsch, N. and J. Hinderer, 1998. Estimation of the free core nutation Q factor from tidal analysis, in: Proc. 13th International Symposium on Earth Tides, Brussels, eds. B. Ducarme and P. Paquet, 315-322, Brussels.

Florsch, N., and J. Hinderer, 2000. Bayesian estimation of the free core nutation parameters from the analysis of precise tidal gravity data, Phys. Earth Planet. Int., 117, 21-35.

Florsch, N. And M. Llubes, 2002. Geodetic impact of acquifer on regional gravity survey, Geophys. Res. Abs. EGS 27 General Assembly, 4, EGS02-A-05536.

Florsch, N., J. Hinderer, D. Crossley, H. Legros, and B. Valette, 1991. Preliminary spectral analysis of the residual signal of a superconducting gravimeter for periods shorter than one day, Phys. Earth Planet. Int., 68, 85-96.

Florsch, N., F. Chambat, J. Hinderer, and H. Legros, 1994. A simple method to retrieve the complex eigenfrequency of the Earth's nearly diurnal free wobble; application to the Strasbourg superconducting gravimeter data, Geophys. J. Int., 116, 53-63.

Florsch, N., H. Legros, and J. Hinderer, 1995. The search for weak harmonic signals in a spectrum with applications to gravity data, Phys. Earth Planet. Int., 90, 197-210.

Florsch, N., J. Hinderer and H. Legros, H., 1995. Mise en evidence d'onde de maree quart-diurnes de quelques pico-g d'amplitude a l'aide de gravimetres supraconducteurs; (Quarter-diurnal tidal waves of a few pico-g amplitude detected using superconducting gravimeters), in Comptes Rendus de l'Academie des Sciences, Serie II. Sciences de la Terre et des Planetes, 321 (4), 279-285.

Florsch, N., J. Hinderer and H. Legros, 1995. Identification of quarter-diurnal tidal waves in superconducting gravimeter data, Bull. Inf. Marées Terrestres, 122, 9189-9198.

Florsch, N., J. Hinderer, and H. Legros, 1995. Generalized and Bayesian inversions of the FCN parameters from gravity data, XX EGS General Assembly, Hamburg.

Francis, O., 1997. Calibration of the C021 superconducting gravimeter in Membach (Belgium) using 47 days of absolute gravity measurements, in Gravity, Geoid and Marine Geodesy, International Association of Geodesy Symposia, Tokyo, 117, 212-219, eds J. Segawa, H. Fujimoto and S. Okubo, Springer, Berlin.

Francis, O., 1998. Two year of registration with the C021 cryogenic gravimeter at station Membach (Belgium), in Proceedings of the 13th International Symposium on Earth Tides, Brussels, Belgium, 13, eds B. Ducarme and P. Paqet, Observatoire Royal de Belgique, Brussels.

Francis, O. and Melchior, P., 1996. Tidal loading in south western Europe: a test area, Geophys. Res. Lett, 23, 17, 2251-2254.

Francis, O. and Van Camp, M., 1998. Calibration of the C021 superconducting gravimeter in Membach (Belgium) using absolute gravity measurements, in Proceedings of the 13th International Symposium on Earth Tides, Brussels, Belgium, 13, eds B. Ducarme and P. Paqet, Observatoire Royal de Belgique, Brussels.

Francis, O. and M. Hendrickx, 2001. Calibration of LaCoste & Romberg G906 by comparison with the superconducting gravimeter C021 in Membach (Belgium), J. Geod. Soc. Japan, 47 (1), 16-21.

Francis, O., Ducarme, B., De Meyer, F., and Makinen, J., 1995. Present state of absolute gravity measurements in Brussels and comparison with the superconducting gravimeter drift, in Proceedings of Second Workshop: Non-tidal gravity changes Intercomparison between absolute and superconducting gravimeters, 11, 117-124, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Francis, O., Ducarme, B., and Van Ruymbeke, M., 1997. One year of registration with the CO21 cryogenic gravimeter at Station Membach (Belgium) in Gravity, Geoid and Marine Geodesy, International Association of Geodesy Symposia, Tokyo, 117, 336-342, eds J. Segawa, H. Fujimoto and S. Okubo, Springer, Berlin.

Francis, O., Van Camp, M., Schott, P. and Wenzel, H.G., 1998. Instrumental transfer function determination for Cryogenic gravimeter GWR-C21 at station Membach, in Proceedings of the 13th International Symposium on Earth Tides, Brussels, Belgium, 13, eds B. Ducarme and P. Paqet, Observatoire Royal de Belgique, Brussels.

Francis, O., Niebauer, T. M., Sasagawa, G., Klopping, F., and Gschwind, J., 1998. Calibration of a superconducting gravimeter by comparison with an absolute gravimeter FG5 in Boulder, Geophys. Res. Lett. 25 (7), 1075-1078.

Freybourger, M., Hinderer, J. and Trampert, J., 1997, Comparative study of superconducting gravimeters and broadband seismometers STS-1/Z in subseismic frequency bands, Phys. Earth Planet. Int., 101, 203-217.

Fujimoto, H. and Tomoda, Y., 1980, Superconducting gravimeter of novel design, J. the Geod. Society Japan, 26, 75-81.

Fukuda, Y. and Sato, T., 1996, Gravity effects of sea level variation at the SG sites, estimated from ERS-1 and Topex-Poseidon altimeter data, in Gravity, Geoid and Marine Geodesy, International Association of Geodesy Symposia, Tokyo, 117, 107-114, eds Segawa, J., H. Fujimoto and S. Okubo, Springer, Berlin.

Fukuda, Y., Mawatari, H., and Yusa, Y, and Hunt, T. M., 1995. Gravity changes associated with groundwater level variations at Beppu, Japan, in International Union of Geodesy and Geophysics, XXI General Assembly, Boulder, USA, abstract, B31.

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Gegout, P., Hinderer, J., Boy, J.P., Legros, H. and Florsch, N., 1996. Atmospheric loading and surface gravity changes: a search for influence of global versus local effects, XXI EGS Gen. Ass., The Hague, Holland.

Gegout, P., Hinderer, J., Legros, H., Greff, M. and Dehant, V., 1998, On the influence of atmospheric pressure on the free and forced nutational motions of the Earth, Phys. Earth Planet. Inter., 106, 337-351.

Gegout, P., Legros, H. and Hinderer, J., 2003.  3D aspherical earth’s model and 3D atmospheric loading for the new gravity missions, Geophysical Research Abstracts, EGS 27 General Assembly, Vol. 5, 09294.

Goodkind, J. M. 1978. Variations in superconducting gravimeters, U. S. Geological Survey Professional Paper, P 1100, p. 208.

Goodkind, J. M., 1979. Continuous measurements with the superconducting gravimeter, Tectonophysics, 52, p. 99-105.

Goodkind, J. M., 1981. Measurements with the superconducting gravimeter in: Workshop on SQUID applications to geophysics, eds. Weinstock, H. and Overton, W. C., Jr., Los Alamos, NM, 140-144.

Goodkind, J. M., 1981. Precision of the superconducting gravimeters determined by simultaneous measurements with two instruments, Bulletin d'Information - Bureau Gravimetrique International, 49, 128-140.

Goodkind, J. M., 1983, Q of the nearly diurnal free wobble, In Proceedings of the 9th international symposium on earth tides, John T. Kuo ed., New York, 1981, E. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart.

Goodkind, J., 1986, Continuous measurements of non-tidal variations of gravity, in: Chapman conference on vertical crustal motions; measurement and modelling, J. Geophys. Res., 91, 9125-9134.

Goodkind, J.M., 1991, The superconducting gravimeters principles of operation, current performance and future prospects, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 81-90, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Goodkind, J. M., 1995. Gravity peaks at the time of earthquakes in central Alaska, in Proceedings of Second Workshop: Non-tidal gravity changes Intercomparison between absolute and superconducting gravimeters, 11, 91-96, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Goodkind, J. M., 1995. Test for constancy of calibration of gravimeters by fitting to computed tides, in Proceedings of Second Workshop: Non-tidal gravity changes Intercomparison between absolute and superconducting gravimeters, 11, 181-186, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Goodkind, J.M., 1996, Test of theoretical solid earth and ocean gravity tides, Geophys. J. Int., 125, 106-114.

Goodkind, J.M., 1998, Determination of absolute tidal amplitudes, in Proceedings of the 13th International Symposium on Earth Tides, Brussels, Belgium, 13, eds B. Ducarme and P. Paqet, Observatoire Royal de Belgique, Brussels.

Goodkind, J., 1999. The superconducting gravimeter, Rev. Sci. Inst., 70, 11, 4131-4152.

Goodkind, J.M. and Young, C., 1991, Comparison of two superconducting gravimeters and an absolute meter at Richmond, Florida, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 91-98, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Goodkind, J.M. and Young, C., 1991, Gravity and hydrology at Kilauea Volcano, the Geysers and Miami, in Proceedings of the Workshop: Non Tidal Gravity Changes Intercomparison between absolute and superconducting gravimeters, 3, 163-167, ed Poitevin, C., Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg.

Grosse-Brauckmann, W., 1985, Das GWR "Superconducting" - Gezeitengravimeter, Jahrestagung der Deutschen Geophysikalischen Gesellschaft e.V., 45, 154.

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Harnisch, M. and Harnisch, G., 1995, Processing of the data from two superconducting gravimeters, recorded in 1990-1991 at Richmond (Miami, Florida). Some problems and results, Bull. d'Inf. Marées Terr., 122, 9141-9147.

Harnisch, M., and Harnisch, G.,  2001. Study of long-term gravity variations, based on data of the GGP cooperation, J. Geodet. Soc. Japan, 47, 1, 322-327.

Harnisch M., and Harnisch G., 2002. Seasonal variations of hydrological influences on gravity measurements at Wettzell, Bull. d'Inf. Marées Terr., 137,

Harnisch, M., Harnisch, G., Richter, B., Schwahn, W. and Sasagawa, G., 1998, Estimation of polar motion effects from time series recorded by superconducting gravimeters, problems and results, in Proceedings of the 13th International Symposium on Earth Tides, Brussels, Belgium, 13, eds B. Ducarme and P. Paqet, Observatoire Royal de Belgique, Brussels.

Harnish, M., G. Harnisch, H. Jurczyk and H. Wilmes, 2000. 889 days of registrations with the superconducting gravimeter SG103 at Wettzell (Germany), Cahiers du Centre Europeean de Geodynamique et de Seismologie, 17, 25-37.  

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