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Publications

24 février 2014 ( dernière mise à jour : 28 mai 2018 )

  1. Pedersen, H. A. and M. Campillo, 1991. Depth dependence of Q beneath the Baltic Shield inferred from modelling of short period seismograms. Geophysical Research Letters, 18, 1755-1758.
  2. Mars J. and H. a. Pedersen, 1992. Time-frequency analysis : a new tool for waves separations, Proceedings of the 54th Meeting of the European Association of Exploration Geophysicists, 576-577.
  3. Pedersen H. A., B. Le Brun, d. Hatzfeld, M. Campillo, and P.-Y. Bard, 1994. Ground motion amplitude across ridges, Bulletin of the Seismological Society of America, 84, 1786-1800.
  4. Pedersen H. A., M. Campillo and N. Balling, 1994. Changes in the lithospheric structure across the Sorgenfrei-Tornquist Zone, Earth and Planetary Science Letters, 128, 37-46.
  5. Pedersen H. A., F. J. Sànchez-Sesma and M. Campillo, 1994. Three-dimensional scattering by two-dimensional topographies, Bulletin of the Seismological Society of America, 94, 1169-1183.
  6. Pedersen H. A., M. Campillo and F. J. Sànchez-Sesma , 1995. Azimuth dependent wave amplification in alluvial valleys, Soil Dynamics and Earthquake Engineering, 14, 289-300.
  7. Pedersen H. A., V. Maupin, and M. Campillo, 1996. Wave diffraction in multi-layered media with the Indirect Boundary Element Method. Application to 3D diffraction of long period surface waves by 2D lithospheric structures, Geophysical Journal International, 125, 545-558.
  8. Pedersen H. A. and M. Campillo, 1996. Influence of wave azimuth on site effects, Eleventh World Conference on Earthquake Engineering, Acapulco, Mexico.
  9. Druzhinin A., H. A. Pedersen, M. Campillo and W. Kim, 1998. Elastic Kirschoff-Helmholz Synthetic seismograms, Pure and Applied Geophysics, 151, 17-45.
  10. Hevin G., O. Abraham, H. A. pedersen, and M. Campillo, 1998. Characterisation of surface cracks with Rayleigh waves : a numerical model, Non Destructive testing and Evaluation International, 31, 289-297.
  11. Pedersen H. A., J.-P. Avouac, and M. Campillo, 1998. Anomalous surface waves from Lop Nor nuclear explosions - observations and numerical modelling, Journal of Geophysical Research, 103, 15051-15068.
  12. Arlitt R, Kissling E, Ansorge J. and Tor Working Group, 1999. Three-dimensional crustal structure beneath the TOR array and effects on teleseismic wavefronts, Tectonophysics, 314, 309-319.
  13. Pedersen, T. ; Gregersen, S. ; Achauer, U. ; et al., 1999. Project Tor : Deep lithospheric variation across the Sorgenfrei-Tornquist zone, Southern Scandinavia
  14. Author(s) : Source : Bulletin of the Geological Society of Denmark Volume : 13-24
  15. Gossler J, Kind R, Sobolev SV, Kampf H, Wylegalla K, Stiller M and Tor Working Group, 1999. Major crustal features between the Harz Mountains and the Baltic Shield derived from receiver functions, Tectonophysics, 314, 321-333.
  16. Cotte, N., H. A. Pedersen, M. Campillo, J. Ni, R. Kind, E. Sandvol, and W. Zhao, 1999. Determination of the crustal structure in South Tibet by dispersion and amplitude analysis of surface waves, Geophysical Journal International, 138, 809-819.
  17. Wylegalla K, Bock G, Gossler J, Hanka W and Tor Working Group, 1999. Anisotropy across the Sorgenfrei-Tornquist Zone from shear wave splitting, Tectonophysics, 314, 335-350.
  18. Abraham, O. ; Pedersen, H. ; Hevin, G. ; et al., 2000. The use of surface waves for the non-destructive testing of concrete structures, Insight, 42 (7), 444-446.
  19. Hock S., Korn M., TOR Working Group, 2000. Random heterogeneity of the lithosphere across the Trans-European Suture Zone, Geophys. J. Int., 141, 57-70
  20. Cotte, N., H. A. Pedersen, M. Campillo, V. Farra and Y. Cansi, 2000. Off-great circle propagation of intermediate period surface waves as observed on a dense array in the French Alps, Geophysical Journal International, 142, 825-840.
  21. Bock, G. (ed) and SVEKALAPKO Seismic Tomography Working Group, 2001. Seismic probing of Archaean and Proterozoic Lithosphere in Fennoscandia. EOS Transactions AGU, 82, 621, 628-629.
  22. Gregersen, S., Voss, P. and the TOR Working Group, 2002. Summary of project TOR : delineation of a stepwise sharp, deep lithosphere transition across Germany-Denmark-Sweden. Tectonophysics, 360, 61-73.
  23. Cotte, N., H. A. Pedersen, and the TOR Working Group, 2002. Sharp contrast in lithospheric structure across the Tornquist Fan as inferred by Rayleigh wave analysis of TOR1 project data, Tectonophysics, 360, 85-88.
  24. Plomerova J, Babuska V, Vecsey L, Kouba, D. and Tor Working Group, 2002. Seismic anisotropy of the lithosphere around the Trans-European Suture Zone (TESZ) based on teleseismic body-wave data of the TOR experiment, Tectonophysics, 360, 89-114.
  25. Bruneton M., V. Farra and H. A. Pedersen, 2002. Non-linear surface wave phase inversion based on ray-theory, Geophysical Journal International, 151, 583-596.
  26. Shomali ZH, Roberts RG and Tor Working Group, 2002. Non-linear body wave teleseismic tomography along the TOR array , Geophysical Journal International, 148, 562-574.
  27. Baumont D., A. Paul, G. Zandt, S. Beck, and H. A. Pedersen, 2002. Lithospheric structure beneath the Central Andes based on surface wave dispersion, Journal of Geophysical Research, 107, 10.1029/2001/JB00034.
  28. Wilde-Piorko M, Grad M, and Tor Working Group, 2002. Crustal structure variation from the Precambrian to Palaeozoic platforms in Europe imaged by the inversion of teleseismic receiver functions-project TOR, Geophysical Journal International, 150, 261-270.
  29. Chammas R., O. Abraham, P. Cote, H. A. Pedersen and J.-F. Semblat, 2003. Characterization of heterogeneous soils using surface waves : homogeneisation and numerical modeling, International Journal of Geomechanics, 3(1), 53-63.
  30. Alinaghi, A., G. Bock, R. Kind, W. Hanka, K. Wylegalla, TOR and SVEKALAPKO Groups, 2003. Receiver function analysis of the crust and upper mantle from the North German Basin to the Archean Baltic Shield, Geophysical Journal International, 155, 641-652.
  31. Pedersen H. A., O. Coutant, A. Deschamps, M. Soulage and N. Cotte, 2003. Measuring surface wave phase velocities beneath small broadband arrays : test of an improved algorithm and application to the French Alps,Geophysical Journal International, 154, 903-912.
  32. Pedersen H. A., J. Mars and P.-O. Amblard, 2003. Improving group velocity measurements by energy reassignment, Geophysics, 68, 677-684.
  33. Sandoval, S., E. Kissling, J. Ansorge, and the SVEKALAPKO Seismic Tomography Working Group, 2003. High-resolution body wave tomography beneath the SVEKALAPKO array : I. A priori 3D crustal model and associated travel time effects on teleseismic wavefronts, Geophysical Journal International, 153, 75-87.
  34. Yliniemi, J., Kozlovskaya, E., Hjelt, S.-E., Komminaho, K., Ushakov, A. and SVEKALAPKO Seismic Tomography Working Group. 2004. Structure of the crust and uppermost mantle beneath southern Finland revealed by analysis of local events registered by the SVEKALAPKO seismic array. Tectonophysics, 394, 41-67.
  35. Abraham O., R. Chammas, Ph. Cote, H. A. Pedersen and J.-F. Semblat, 2004. Mechanical characterization of heterogeneous soils with surface waves : experimental validation on reduced-scale physical models, Near Surface Geophysics, 2, 249-258.
  36. Bruneton M., H. A. Pedersen, P. Vacher, I. T. Kukkonen, N. T. Arndt, S. Funke, W. Friederich, V. Farra and the SVEKALAPKO Seismic Tomography Working Group, 2004. Layered lithospheric mantle in the central Baltic Shield from surface waves and xenolith analysis, Earth and Planetary Science Letters, 226, 41-52.
  37. Sandoval, S., Kissling, E., Ansorge, J. and the SVEKALAPKO STWG, 2004. High-Resolution body wave tomography beneath the SVEKALAPKO array : II. Anomalous upper mantle structure beneath central Baltic Shield. Geoph . J. Int., 157, 200-214.
  38. Bruneton M., H. A. Pedersen, V. Farra, N. T. Arndt, P. Vacher, and the SVEKALAPKO Seismic Tomography Working Group, 2004. Complex lithospheric structure under the central Baltic Shield from surface wave tomography, Journal of Geophysical Research, 109, B10303.
  39. Darbyshire F. A., T. B. Larsen, K. Mosegaard, T. Dahl-Jensen, O. Gudmundsson, T. Bach, H. A. Pedersen and W. Hanka, 2004. A first detailed look at the Greenland lithosphere and upper mantle, using Rayleigh wave tomograpby, Geophysical Journal International, 158, 267-286.
  40. Kozlovskaya, E., Elo, S., Hjelt, S.-E., Yliniemi, J., Pirttijarvi, M., SVEKALAPKO STWG, 2004. 3D density model of the crust of southern and central Finland obtained from joint interpretation of SVEKALAPKO crustal P-wave velocity model and gravity data. Geoph . J. Int., 158, 827-848.
  41. Kassaras, I., Makropoulos, K., Bourova, E., Pedersen, H. & Hatzfeld, D., 2005. Upper mantle structure of the Aegean derived from two-station phase velocities of fundamental mode Rayleigh waves. The South Aegean Active Volcanic Arc, Developments in Volcanology, Volume 7, Hardbound, ISBN 0-444-52046-5, Imprint ELSEVIER : 19-45.
  42. Yuan X., R. Kind, and H.A. Pedersen, 2005. Seismic monitoring of the Indian Ocean Tsunami, Geophysical Research Letters, 32, L15308, doi:10.1029/2005GL023464
  43. Roueff A., J. Mars, J. Chanussot and H. Pedersen, 2005. Dispersion estimation from linear array data in the time-frequency plane, IEEE Transactions on Signal Processing, 53 (10), 3738-3748.
  44. Bourova E., I. Kassaras, H. A. Pedersen, T. Yanovskaya, D. Hatzfeld and A. Kiratzi, 2005. Surface-wave tomography in the Aegean Region, Geophysical Journal International, 160, 1006-1019.
  45. Voss P., Mosegaard K., Gregersen S., Roberts R.G., Shomali H., Berthelsen A., Thybo H., Pedersen T., Rabbel W., Woelbern I., Budweg M., Busche H., Korn M., Hock S., Guterch A., Grad M., Wilde-Piorko M., Zuchniak M., Plomerova J., Ansorge J., Kissling E., Arlitt R., Waldhauser F., Ziegler P., Achauer U., Pedersen H., Cotte N., Paulssen H., 2006. The Tornquist Zone, a north east inclining lithospheric transition at the south western margin of the Baltic Shield : Revealed through a nonlinear teleseismic tomographic inversion, Tectonophysics, 416, 151-166.
  46. Hjelt, S.-E., Korja, T., Kozlovskaya, E., Lahti, I., Yliniemi, J. & BEAR and SVEKALAPKO Seismic Tomography Working Groups, 2006. Electrical conductivity and seismic velocity structures of the lithosphere beneath the Fennoscandian Shield. Pp 541-559 in : Gee, D. G. & Stephenson, R. A. (eds) 2006. European Lithosphere Dynamics. Geological Society, London, Memoirs, 32. The Geological Society of London 2006.
  47. Gregersen, S., Voss, P., Shomali, Z.H., Grad, M., Roberts, R.G. and Tor Working Group, 2006. Physical differences in the deep lithosphere of northern and central Europe. European Lithosphere Dynamics. Geological Society of London, Memoir 32, 313-322.
  48. Plomerova J., V. Babuska, L. Vecsey, E. Kozlovskaya, T. Raita and the SSTWG, 2006. Proterozoic-Archean boundary in the mantle lithosphere of eastern Fennoscandia as seen by seismic anisotropy Journal of Geodynamics, 41, 400-410.
  49. Shomali ZH, Roberts RG, Pedersen LB,and Tor Working Group, 2006. Lithospheric structure of the Tornquist Zone resolved by nonlinear P and S teleseismic tomography along the TOR array, Tectonophysics, 416, 133-149.
  50. Pedersen H.A., 2006. Impacts of non-plane waves on two-station measurements of phase velocities, Geophysical Journal International, 165, 279-287.
  51. Pedersen H.A., M. Bruneton, V. Maupin 2006. Lithospheric and sublithospheric anisotropy beneath the Baltic shield from surface-wave analysis, Earth Planet. Sci. Lett., 244, 590-605.
  52. Pedersen H. A., F. Krüger and the SVEKALAPKO Seismic Tomography Working Group, 2007. Influence of the seismic noise characteristics on noise correlations in the Baltic Shield, Geophysical Journal International, 168, 197-210.
  53. Hyvonen T., Tiira T., Korja A., Heikkinen P., Rautioaho E. and the SVEKALAPKO Seismic Tomography Working Group, 2007. A tomographic crustal velocity model of the central Fennoscandian Shield, Geophysical Journal International, 168, 1210-1226.
  54. Kaviani A, Paul A, Bourova E, Hatzfeld D, Pedersen H, Mokhtari M, 2007. A strong seismic velocity contrast in the shallow mantle across the Zagros collision zone (Iran), Geophysical Journal International, 171, 399-410.
  55. De Barros L., H. A. Pedersen, J.P. Metaxian, C. Valdes-Gonzales, and P. Lesage, 2008. Crustal structure beneath Popocatepetl (Mexico) from analysis of Rayleigh waves, Journal of volcanology and Geothermal Research, 170, 5-11.
  56. Pedersen H. A., S. Fishwick and D. B. Snyder, 2009. A comparison of cratonic roots through consistent analysis of seismic surface waves, Lithos, 109, 81-95.
  57. Barruol G., Bonnin M., Pedersen H., Bokelmann G.H.R., Tiberi C., 2011. Belt-parallel mantle flow beneath a halted continental collision : the Western Alps, Earth and Planetary Science Letters, 302, 429-438.
  58. Plomerova, J., Vecsey, L., Babuska, V. and LAPNET Working Group, 2011. Domains of Archean mantle lithosphere deciphered by seismic anisotropy - inferences from the LAPNET array in northern Fennoscandia, SOLID EARTH, 2 (2), 303-313. doi:10.5194/se-2-303-2011
  59. Salaün G., Pedersen, H. A., Paul, A., Farra, V., Karabulut, H., Hatzfeld, D., Papazachos, C., Childs, D. M., Pequegnat, C., and SIMBAAD Team, 2012. High resolution surface wave tomography beneath the Aegean-Anatolia region : constraints on upper-mantle structure, Geophysical Journal International, 190, 406-420, doi : 10.1111/j.1365-246X.2012.05483.x.
  60. Poli P., Pedersen, H. A., Campillo, M. and the POLENET/LAPNET Working Group, 2012. Emergence of body waves from cross-correlation of short period seismic noise. Geophysical Journal International, 188, 549-558, doi : 10.1111/j.1365-246X.2011.05271.x.
  61. Poli P., Campillo, M., Pedersen, H. A., and the POLENET/LAPNET Working Group, 2012. Body wave imaging of the Earth’s mantle discontinuities from ambient seismic noise, Science, 338 no 6110, 1063-1065 DOI : 10.1126/science.1228194.
  62. Boué, P., P. Poli P., Campillo M., Pedersen H., Briand X. and Roux, P., 2013. Teleseismic correlations of ambient seismic noise for deep global imaging of the Earth, Geophysical Journal International ; 194, 844-848, doi : 10.1093/gji/ggt160
  63. Pedersen H.A., Debayle, E., Maupin V. and the POLENET/LAPNET Working Group, 2013. Strong lateral variations of lithospheric mantle beneath cratons – Example from the Baltic Shield, Earth and Planetary Science Letters, 383, 164–172. DOI : 10.1016/j.epsl.2013.09.024
  64. Poli P., Pedersen, H. A., Campillo, M. and the POLENET/LAPNET Working Group, 2013. Noise directivity and group velocity tomography in a region with small velocity contrasts : the northern Baltic Shield, Geophysical Journal International, 192, 413–424. doi : 10.1093/gji/ggs034
  65. Virshylo, I. ; Kozlovskaya, E. ; Prodaivoda, G. ; et al., 2014. Composition of uppermost crust beneath northern Fennoscandia from inversion of seismological data,
  66. Geoconference on Science and Technologies in Geology, Exploration and Mining, Vol I, 427-434.
  67. Vinnik, L., Oreshin, S., Makeyeva, L., Peregoudov, D., Kozlovskaya, E., and the POLENET/LAPNET Working Group, 2014. Anisotropic lithosphere under the Fennoscandian Shield Anisotropic lithosphere under the Fennoscandian shield from P receiver functions and SKS waveforms of the POLENET/LAPNET array, Tectonophysics, 628, 45-54. doi:10.1016/j.tecto.2014.04.024.
  68. Macquet, M., Paul, A., Pedersen, H.A., Villaseñor, A., Chevrot, S., Sylvander, M., Wolyniec, D., and Pyrope Workin Group, 2014. Ambient noise tomography of the Pyrenees and the surrounding regions : inversion for a 3-D Vs model in the presence of a very heterogeneous crust, Geophys. J. Int., 199, 402–415
  69. Poli, P., Thomas, C., Campillo, M. and Pedersen, H. A., 2015. Imaging the D’’ reflector with noise correlations, Geophys. Res. Lett., 42 (1), 60-65, DOI : 10.1002/2014GL062198.
  70. Pedersen, H. A., Boué, P, Poli, P. and Colombi, A., 2015. Arrival angle anomalies of Rayleigh waves observed at a broadband array : a systematic study based on earthquake data, full waveform simulations and noise correlations, Geophys. J. Int., 203, 1626-1641.
  71. Evans, P. L., Strollo, A., Clark, A., Ahern, T., Newman, R. Clinton, J. F., Pedersen, H. and Pequegnat, C., 2015. Why seismic networks need digital object identifiers, Eos, 96, doi:10.1029/2015EO036971.
  72. Lyu, C., Pedersen, H. A., Paul, A., Zhao, L., Solarino, S., and the CIFALPS Working Group, 2017. Shear wave velocities in the upper mantle of the Western Alps : new constraints using array analysis of seismic surface waves, Geophys. J. Int., 210 (1), 321-331, doi : 10.1093/gji/ggx166.
  73. Lecocq, Th., Longuevergne, Pedersen, H. A., Brenguier, F., and Stammler, K., 2017. Monitoring ground water storage at mesoscale using seismic noise : 30 years of continuous observation and thermo-elastic and hydrological modeling, Scientific Reports, Nature Publishing Group, 2017, 7, Art. n°14241.
  74. Eeken, T. ; Goes, S. ; Pedersen, H.A. ; Arndt, N. ; Bouilhol ; P., 2018. Seismic evidence for depth-dependent metasomatism in cratons, Earth Planet. Sci. Lett., 491, 148-159.
  75. Pedersen, H. A. and Colombi, A., 2018. Body waves from a single source area observed in noise correlations at arrival times of reflections from the 410 discontinuity, Geophys. J. Int., https://doi.org/10.1093/gji/ggy191.




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