Michel Van Camp

Gravimetry & Seismology - Gravimétrie & Séismologie - Gravimetrie & Seismologie

Researcher at the Royal Observatory of Belgium
Chercheur à l'Observatoire Royal de Belgique
Onderzoeker op de Koninklijke Sterrenwacht van België

SG-GWR-C021 publication list

the right

Peer-reviewed papers

One missing? Please send me an e-mail!

      1. Baker T.F., Bos M.S., Validating Earth and ocean tide models using tidal gravity measurements, Geophys. J. Int., 152, 468-485, 2003.
      2. Banka D., Crossley, D., Noise levels of superconducting gravimeters at seismic frequencies, Geophys. J. Int., 139(1), 87-97, 1999.
      3. Boy J.-P. et al., A comparison of tidal ocean loading models using superconducting gravimeter data, J. Geophys. Res., 108(B4), 2193, doi:10.1029/2002JB002050, 2003.
      4. Boy J.-P. et al., Validation of long-period oceanic tidal models with superconducting gravimeters, J. Geodyn. 41, 112-118, 2006.
      5. Boy J.-P., Hinderer J., Study of the seasonal gravity signal in superconducting gravimeter data, J. Geodyn. 41, 227-233, 2006.
      6. Boy J.-P., Ray R., Hinderer J., Diurnal atmospheric tide and induced gravity variations, J. Geodyn., 41, 253-258, 2006.
      7. Calvo M., Hinderer J., Rosat S., Legros H., Boy J.-P., Ducarme B., Zürn W., Time stability of spring and superconducting gravimeters through the analysis of very long gravity records, J. Geodyn., doi:10.1016/j.jog.2014.04.009, 2014.
      8. Chen X.-D., Kroner C, Sun H-P, Abe M, Zhou J, Yan H, Wziontek H., Determination of gravimetric parameters of the gravity pole tide using observations recorded with superconducting gravimeters, J. Geodyn. 48(3-5), 348-353, 2009.
      9. Chen X.-D., Ducarme B., Sun H.-P., Xu, J.Q., Loading effect of a self-consistent equilibrium ocean pole tide on the gravimetric parameters of the gravity pole tides at superconducting gravimeter stations, J. Geodyn., 45(4-5), 201-207, DOI: 10.1016/j.jog.2007.11.003, 2008.
      10. Crossley D., Hinderer J., Casula G., Francis O., Hsu H.-T, Imanishi Y., Jentzsch G., Kaarianen J., Merriam J., Meurers B., Neumeyer J., Richter B., Shibuya K., Sato T., and van Dam T., Network of Superconducting Gravimeters Benefits a Number of Disciplines, EOS, Transactions, American Geophysical Union, 80(11), 121-125-126, 1999.
      11. Crossley D., Preface to the Global Geodynamics Project, J. Geodyn. 38(3-5), 225-236, 2004.
      12. Crossley D., Hinderer J., Scientific achievements from the first phase (1997–2003) of the Global Geodynamics Project using a worldwide network of superconducting gravimeters, J. Geodyn. 38(3-5), 237-262, 2004.
      13. Crossley D., Hinderer J., Boy J.-P., Regional gravity variations in Europe from superconducting gravimeters, J. Geodyn., 38(3-5), 325-342, 2004.
      14. Crossley D., Hinderer J., Boy J.P., Time variation of the European gravity field from superconducting gravimeters, Geophys. J. Int., 161, 257-264, 2005.
      15. Crossley D., Hinderer J., A review of the GGP network and scientific challenges, J. Geodyn., 48, 299-304, DOI: 10.1016/j.jog.2009.09.019, 2009.
      16. Crossley D., Hinderer J., Report of GGP activities to Commission 3, completing 10 years for the worldwide network of superconducting gravimeters, IAG Symposia, Observing Our Changing Earth, 133, 511-521, Springer Berlin, 2009.
      17. Crossley D. Hinderer J., The Contribution of GGP Superconducting Gravimeters to GGOS, IAG Symposia, Observing Our Changing Earth, 133, 841-852, Springer Berlin, 2009.
      18. Crossley D., Hinderer J., GGP (Global Geodynamics Project): an international network 18 of superconducting gravimeters to study time-variable gravity, IAG Symposia, Gravity, Geoid, and Earth Observation, 135, 627-635, DOI: 10.1007/978-3-642-10634-7_83, 2010.
      19. Crossley, D., de Linage C., Hinderer J., Boy J.-P., Famiglietti J., A comparison of the gravity field over Central Europe from superconducting gravimeters, GRACE and global hydrologiccal models, using EOF analysis, Geophys. J. Int., DOI:10.1111/j.1365-246X.2012.5404.x, 2012.
      20. Crossley, D., Hinderer, J., Riccardi, U., The measurement of surface gravity, Rep. Prog. Phys. 76, doi:10.1088/0034-4885/76/4/046101, 2013.
      21. Crossley, D., Boy, J.-P., Hinderer, J., Jahr, T., Weise, A., Wziontek, H., Abe, M., Foerste, C., Comment on: ‘The quest for a consistent signal in ground and GRACE gravity time series’, by Michel Van Camp, Olivier de Viron, Laurent Metivier, Bruno Meurers, and Olivier Francis, Geophys. J. Int., 2014 (accepted).
      22. Deceuster, J., Kaufmann, O., and Van Camp, M., Automated identification of changes in electrode contact properties for long–term permanent ERT monitoring experiments, Geophysics, 78(2), doi:10.1190/GEO2012-0088.1, 2013.
      23. Ding H., and Shen W.B., Search for the Slichter modes based on a new method: optimal sequence estimation, J. Geophys. Res., doi: 10.1002/jgrb.50344, 2013.
      24. Ding H., and Chao, B.F., The Slichter mode of the Earth: Revisit with optimal stacking and autoregressive methods on full superconducting gravimeter data set, J. Geophys. Res., doi: 10.1002/2015JB012203, 2015.
      25. Ducarme B., Sun, H.-P., Tidal gravity results from GGP network in connection with tidal loading and Earth response. J. Geodet. Soc. Jpn. 47 (1), 308–315, 2001.
      26. Ducarme B., Venedikov A.P., Arnoso J., Vieira R., Determination of the long period tidal waves in the GGP superconducting gravity data, J. Geodyn., 38(3-5), 307-324, DOI:10.1016/j.jog.2004.07.0042004., 2004.
      27. Ducarme B., Venedikov A.P., Arnoso J., Chen X.D., Sun H.-P., Vieira R., Global analysis of the GGP superconducting gravimeters network for the estimation of the pole tide gravimetric amplitude factor, J. Geodyn. 41(1-3), 334-344, 2006.
      28. Ducarme B., Sun H.-P., Xu J.-Q., Determination of the free core nutation period from tidal gravity observations of the GGP superconducting gravimeter network, J. Geod. 81(3), 179-187, DOI: 10.1007/s00190-006-0098-9, 2007.
      29. Ducarme B., Rosat S., Vandercoilden L., Xu J.-Q., Sun H.-P., European Tidal Gravity Observations: Comparison With Earth Tide Models And Estimation Of The Free Core Nutation (Fcn) Parameters, Observing our Changing Earth, International Association of Geodesy Symposia, 133 (3), 523-532, DOI: 10.1007/978-3-540-85426-5_62, 2009.
      30. Ducarme B., Determination of the main Lunar waves generated by the third degree tidal potential and validity of the corresponding body tides models, J. Geod. DOI: 10.1007/s00190-011-0492-92011, 2011.
      31. Ducarme B., The K1 triplet: Can Lunar nodal waves contribute to the study of the Free Core Nutation (FCN)?, Bull. Inf. Marées Terrestres 137, 11891-11901, 2012.
      32. Francis O. and Hendrickx M., Calibration of the LaCoste-Romberg 906 by comparison with the Superconducting Gravimeter C021 in Membach (Belgium), Journal of Geodetic Society of Japan, 47(1), 16-21, 2001
      33. Francis O., Calibration of the C021 Superconducting Gravimeter in Membach (Belgium) Using 47 Days of Absolute Gravity Measurements, Gravity, Geoid and Marine Geodesy, International Association of Geodesy Symposia, Vol. 117, 212-219, Springer-Verlag, 1997.
      34. Francis O., Ducarme B. and Van Ruymbeke M., One Year of Registration With the C021 Cryogenic Gravimeter at the Membach Station (Belgium), Gravity, Geoid and Marine Geodesy, International Association of Geodesy Symposia, Vol. 117, 336-342, Springer-Verlag, 1997.
      35. Francis, O., Van Camp, M., van Dam T., Warnant R., and Hendrickx M., Indication of the uplift of the Ardenne in long term gravity variations in Membach (Belgium), Geophys. J. Int. 158, 346-352, 2004.
      36. Francis, O., Lampitelli, C., Klein, G., Van Camp, M., and Pálinkáš, V., Comparison between the Transfer Functions of three Superconducting Gravimeters, Bull. Inf. Marées Terrestres 137, 11857-11868, 2012.
      37. Fratepietro F., Baker T.F., Williams S.D.P, Van Camp, M., Ocean loading deformations caused by storm surges on the north-west European shelf, Geophys. Res. Lett., 33, L06317, doi:10.1029/2005GL025475, 2006. AGU Journal Highlights 10 April 2006.
      38. Gitlein, O., Timmen, L., Müller, J., Modeling of Atmospheric Gravity Effects for High-Precision Observations, Int. J. Geosci. 4, 663-671, doi:10.4236/ijg.2013.44061, 2013.
      39. Hábel B., Meurers B., A New Tidal Analysis of Superconducting Gravity Observations in Western and Central Europe, Contributions to Geophysics and Geodesy 44, 2014.
      40. Häfner R., Widmer-Schnidrig R., Signature of 3-D density structure in spectra of the spheroidal free oscillation 0S2, Geophys. J. Int., doi: 10.1093/gji/ggs013, 2012.
      41. Harnisch M., Harnisch G., Study of long-term gravity variations, based on data of the GGP co-operation, J. Geodyn. 41(1-3), 318-325, 2008.
      42. Hinderer J., D. Crossley, Scientific achievements from the first phase (1997–2003) of the Global Geodynamics Project using a worldwide network of superconducting gravimeters, J. Geodyn. 38, 237–262, 2004.
      43. Hinderer J., Andersen O., Lemoine F., Crossley D., Boy J.-P., Seasonal changes in the European gravity field from GRACE: A comparison with superconducting gravimeters and hydrology model predictions, J. Geodynamics, 41, 59-68, 2006.
      44. Hinderer J., Crossley D., Warburton R.J., Gravimetric methods – superconducting gravity meters, Treatise on Geophysics, 3, 65-122, DOI: 10.1016/B978-044452748-6.00172-3, 2007.
      45. Hu X.-G., Liu L.-T., Ducarme B., Xu H. J., Sun H.-P., Estimation of the pole tide gravimetric factor at the chandler period through wavelet filtering, Geophys. J. Int., 169 (3), 821–829, doi: 10.1111/j.1365-246X.2007.03330.x, 2007.
      46. Jentzsch G., Corssley D., Hinderer J., Takemoto S., (Editorial) Time varying gravimetry, GGP, and vertical crustal motions, J. Geodyn., 38(3-5), 223-224, 2004.
      47. Karbon M., Böhm J., Meurers B., Schuh H., Atmospheric Corrections for Superconducting Gravimeters Using Operational Weather Models, Proceedings of the IAG General Assembly 139, 421-427, Melbourne, Australia, June 28 - July 2, DOI: 10.1007/978-3-642-37222-3_56, 2011.
      48. Meurers B., Investigations of temporal gravity variations in SG-records, J. Geodyn., 38, 423-435, 2004.
      49. Meurers B., Van Camp, M., and Petermans, T., Correcting gravity time series using rain fall modeling at the Vienna and Membach stations and application to Earth tide analysis, J. Geod., doi: 10.1007/s00190-007-0137-1, 2007.
      50. Meurers B., Van Camp M., Francis O., Palinkas V., Temporal variation of tidal parameters in superconducting gravimeter time-series, Geophys. J. Int., 205(1), doi: 10.1093/gji/ggw017, 2016.
      51. Park J., Song T. R., Tromp J., Okal E., Stein S., Roult G., Clevede E., Laske G., Kanamori H., Davis P., Berger J., Braitenberg C., Van Camp M., Lei X., Sun H., Xu H., and Rosat S., Long-period behavior of the 26 December 2004 Sumatra-Andaman earthquake from its excitation of Earth’s free oscillations, Science, 308, 1139-1144, 20 May 2005.
      52. Rosat S., Hinderer J., Crossley D., Rivera L., The search for the Slichter mode: comparison of noise levels of superconducting gravimeters and investigation of a stacking method, Phys. Earth Planet. Inter. 28, 183-202, 2003.
      53. Rosat S., Hinderer J., Crossley D., Boy J.P., Performance of superconducting gravimeters from long-period seismology to tides, J. Geodyn., 38 (3-5), 461-476, 2004.
      54. Rosat S., Hinderer, J., Noise Levels of Superconducting Gravimeters: Updated Comparison and Time Stability, Bull. Seism. Soc. Am., 101(3), 1233-1241, 2011.
      55. Roult G., Rosat S., Clévédé E., Millot-Langet R., Hinderer J., New determinations of Q quality factors and eigenfrequencies for the whole set of singlets of the Earth's normal modes 0S0, 0S2, 0S3 and 2S1 using superconducting gravimeter data from the GGP network, J. Geodyn., 41 (1-3), 345-357, 2006.
      56. Shen W.-B., Ding H., Observation of spheroidal normal mode multiplets below 1 mHz using ensemble empirical mode decomposition, Geophys. J. Int., 196, 1631-1642, doi: 10.1093/gji/ggt468, 2014.
      57. Van Camp M., Measuring seismic normal modes with the GWR C021 superconducting gravimeter, Phys. Earth Planet. Inter. 116, 81-92, 1999.
      58. Van Camp M., Wenzel H.-G., Schott P., Vauterin P., Francis O., Accurate transfer function determination for superconducting gravimeters. Geophys. Res. Lett. 27 (1), 37-40, 2000.
      59. Van Camp M., Efficiency of tidal corrections on absolute gravity measurements, Proceedings of the workshop: IMG-2002 Instrumentation and Metrology in Gravimetry, Cahiers du Centre Européen de Géodynamique et de Séismologie, Luxembourg, 22, 99-103, 2003.
      60. Van Camp M., Camelbeeck T., Francis O., An experiment to evaluate crustal motions across the Ardenne and the Roer Graben (North-western Europe) using absolute gravity measurements, Metrologia, 39, 503-508, 2002.
      61. Van Camp M., Williams S.D.P., Francis O., Uncertainty of absolute gravity measurements, J. Geophys. Res., 110, B05406, doi:10.1029/2004JB003497, 9pp, 2005.
      62. Van Camp M., Francis O., Is the instrumental drift of superconducting gravimeters a linear or exponential function of time?, J. Geod., doi: 10.1007/s00190-006-0110-4, 2006.
      63. Van Camp M., Vanclooster M., Crommen O., Petermans T., Verbeeck K., Meurers B., van Dam T., Dassargues A., Hydrogeological investigations at the Membach station, Belgium and application to correct long periodic gravity variations, J. Geophys. Res. 111, B10403, doi:10.1029/2006JB004405, 2006.
      64. Van Camp M., Steim J., Rapagnani G., Rivera L., Connecting a Quanterra Datalogger Q330 on the GWR C021 Superconducting Gravimeter, Seismological Research Letters 79 (6), 778-789, 2008.
      65. Van Camp M., Métivier L., de Viron O., Meurers B., Williams S.D.P., Characterizing long time scale hydrological effects on gravity for improved distinction of tectonic signals, J. Geophys. Res. 115, B07407, doi: 10.1029/2009JB006615, 2010.
      66. Van Camp M., de Viron O., Scherneck H.-G., Hinzen K., Williams S., Lecocq T., Quinif Y., Camelbeeck T., Repeated absolute gravity measurements for monitoring slow intraplate vertical deformation in Western Europe, J. Geophys. Res., 116, B08402, doi: 10.1029/2010JB008174, 2011.
      67. Van Camp M., de Viron, O., and Warburton, R., Improving the determination of the gravity rate of change by combining superconducting with absolute gravimeter data, Computers in Geosciences, 51, 49-55, doi: 10.1016/j.cageo.2012.07.029, 2013.
      68. Van Camp M., de Viron O., Métivier L., Meurers B., Francis O., The quest for a consistent signal in ground and GRACE gravity time series, Geophys. J. Int., doi: 10.1093/gji/ggt524, 2014.
      69. Van Camp M., de Viron O., Métivier L., Meurers B., Francis O., Reply to Comment on: ‘The quest for a consistent signal in ground and GRACE gravity time series’, by Michel Van Camp, Olivier de Viron, Laurent Métivier, Bruno Meurers, and Olivier Francis, Geophys. J. Int., doi: 10.1093/gji/ggu360, 2014.
      70. Van Camp M., Meurers B., de Viron O., Forbirger T., Optimized strategy for the calibration of superconducting gravimeters at the one per mille level, J. Geod., doi: 10.1007/s00190-015-0856-7, 2016.
      71. Van Camp M., de Viron O., Pajot-Métivier G., Casenave F., Watlet A., Dassargues A., Vanclooster M., Direct measurement of evapotranspiration from a forest using a superconducting gravimeter, Geophys. Res. Lett., doi: 10.1002/2016GL070534, 2016.
      72. Van Camp M., Francis O., Lecocq T., Membach geophysical station (Belgium), a long history of groundbreaking results in gravimetry, EOS Trans AGU, 2017 (in press).
      73. Van Camp M., de Viron O., Watlet A., Meurers B., Francis O., Caudron C., Geophysics from terrestrial time-variable gravity measurements, Rev. Geophys., doi: 10.1002/2017RG000566, 2017.
      74. Weise A. et al., Gravity field variations from superconducting gravimeters for GRACE validation, J. Geodyn., 48, 325-330, 2009.
      75. Wilmes H., Wziontek W., Falk R., Bonvalot S., AGrav—The New International Absolute Gravity Database of BGI and BKG and its benefit for the Global Geodynamics Project (GGP), J. Geodyn. 48, 305-309, 2009.
      76. Xu J.-Q. Sun H.-P., Ducarme B., A global experimental model for gravity tides of the Earth, J. Geodyn., 38(3-5), 293-306, DOI: 10.1016/j.jog.2004.07.003, 2004.
      77. Xu J.-Q., Sun H.-P., Yang X.-F., A study of gravity variations caused by polar motion using superconducting gravimeter data from the GGP network, J. Geod., 78(3), 201-209, DOI10.1007/s00190-004-0386-1, 2004.
      78. Xu Y., Crossley D., Herrmann R., Amplitude 1 and Q of 0S0 from the Sumatra earthquake as recorded on superconducting gravimeters and seismometers, Seis. Res. Lett., 79(6), 797-805, 2008.
      79. Xu C., Lu Z., Zhou B., et al., Detecting spheroidal modes of Earth's free oscillation excitaded by Wenchuan Earthquake using superconducting gravity observations, Acta Geodaetica et Cartographica Sinica, 42(4), 501-507, 2013.

Scientific popularization publications

      1. Van Camp, M., de Viron, O. et Camelbeeck, T., Les déformations verticales du sol par la mesure de l’accélération de la pesanteur, Ciel et Terre (bimensuel de la Société Royale Belge d’Astronomie, de Météorologie et de Physique du Globe) 127 (5), pp 130-135, septembre-octobre 2011.
      2. Van Camp, M., 2005, Séismes géants et symphonie tellurique, in Science Connection 9, 17-20, décembre 2005, edited by P. Mettens, the Belgian Science Policy, Brussels. + Dutch translation: Van Camp, M., 2005, Gigantische aardschokken en een symfonie van de aarde, in Science Connection 9, 17-20, december 2005, edited by P. Mettens, the Belgian Science Policy, Brussels.
      3. Van Camp, M. et de Viron, O., 2005, La mesure de la Terre est une des bases de son étude physique, Ciel et Terre (bimensuel de la Société Royale Belge d’Astronomie, de Météorologie et de Physique du Globe) 121 (3), pp 66-78, mai-juin 2005.
      4. Van Camp, M. et Camelbeeck, T., 2004, Histoire des stations sismiques belges : de la station « Solvay » au réseau national de surveillance sismique, Ciel et Terre (bimensuel de la Société Royale Belge d’Astronomie, de Météorologie et de Physique du Globe) 120 (6), pp 162-176, novembre-décembre 2004.
      5. Van Camp, M., Camelbeeck, T., Richard, P., 2003, The FG5 absolute gravimeter: metrology and Geophysics, Physicalia Magazine (Journal of the Belgian Physical Society), 25 (3), pp 161-174, 2003. + French translation and adaptation : Van Camp, M., Camelbeeck, T., Richard, P., 2003, Le kilogramme, la constante de Planck et le soulèvement de l’Ardenne, Ciel et Terre (bimensuel de la Société Royale Belge d’Astronomie, de Météorologie et de Physique du Globe), 120 (1), pp 5-11, janvier-février 2004.
      6. Van Camp, M., 2001, Les oscillations libres de la Terre, Ciel et Terre (bimensuel de la Société Royale Belge d’Astronomie, de Météorologie et de Physique du Globe), 117 (3), pp 98-102, mai-juin 2001.
      7. Van Camp, M., 1999, Tremblements de Terre et marées à l’Observatoire Royal de Belgique, Horizons, 34, pp 26-28 (revue de l’Association Royale des Anciens Elèves du Collège Saint-Michel).