P. Schmoldt, PhD - MTNet - DIAS
P. Schmoldt, PhD - MTNet - DIAS P. Schmoldt, PhD - MTNet - DIAS
Bibliography Karato, S., Z. Wang, B. Liu, and K. Fujino (1995), Plastic deformation of garnets: systematics and implications for the rheology of the mantle transition zone, Earth and Planetary Science Letters, 130(1-4), 13 – 30, doi:10.1016/0012-821X(94)00255-W. Karato, S., M. R. Riedel, and D. A. Yuen (2001), Rheological structure and deformation of subducted slabs in the mantle transition zone: implications for mantle circulation and deep earthquakes, Physics of The Earth and Planetary Interiors, 127(1-4), 83 – 108, doi:10.1016/S0031-9201(01)00223-0. Kaufman, A. (1985), Tutorial: Distributing of alternating electrical charges in a conducting medium, Geophysical Prospecting, 33, 171–184. Kellett, R. L., M. Mareschal, and R. D. Kurtz (1992), A model of lower crustal electrical anisotropy for the Pontiac Subprovince of the Canadian Shield, Geophysical Journal International, 111(1), 141–150, doi:10.1111/j.1365-246X.1992.tb00560.x. Kelley, M. C. (1989), The Earth’s ionosphere: Plasma physics and electrodynamics, International Geophysics Series, vol. 43, 1 ed., Academic Press, Elsevier, 525 B, Street Suite 1900, San Diego, California 92101-4495, USA, reprint: Dec.2009, 2nd edition, vol. 96, ISBN 978-0-12-088425-4. Kennett, B. L. N., E. R. Engdahl, and R. Buland (1995), Constraints on seismic velocities in the Earth from travel times, Geophysical Journal International, 122, 108–125. Kisabeth, J., and G. Rostoker (1977), Modeling of three-dimensional current systems associated with magnetospheric substorms, Geophysical Journal of the Royal Astronomical Society, 49, 655–683. Kopylova, M., J. Lo, and N. Christensen (2004), Petrological constraints on seismic properties of the Slave upper mantle (northern Canada), Lithos, 77, 493–510, doi: 10.1016/j.lithos.2004.03.012. Korja, T. (2007), How is the European lithosphere imaged by magnetotellurics?, Surveys in Geophysics, 28, 239–272, doi:10.1007/s10712-007-9024-9. Korja, T., P. Tuisku, T. Pernu, and J. Karhu (1996), Lapland Granulite Belt: Implications for properties and evolution of deep continental crust, Terra Nova, 8, 48–58. Koulakov, I., M. K. Kaban, M. Tesauro, and S. Cloetingh (2009), P- and S-velocity anomalies in the upper mantle beneath europe from tomographic inversion of ISC data, Geophysical Journal International, 179(1), 345–366, doi:10.1111/j.1365-246X.2009. 04279.x. Kreutzmann, A., A. Neska, H. Brasse, and the EMTESZ Working Group (2005), The EMTESZ project: Induction vectors, strikes and 2-D modelling, in 21. Kolloquium der Elektromagnetischen Tiefenforschung, edited by O. Ritter and H. Brasse, pp. 288–291. 344
Bibliography Kurtz, R. D., J. A. Craven, E. R. Niblett, and R. A. Stevens (1993), The conductivity of the crust and mantle beneath the Kapuskasing Uplift: Electrical anisotropy in the upper mantle, Geophysical Journal International, 113, 483–498. Kuvshinov, A., and N. Olsen (2006), A global model of mantle conductivity derived from 5 years of CHAMP, Oersted, and SAC-C magnetic data, Geophysical Research Letter, 33, doi:10.1029/2006GL027083. Kuvshinov, A., and N. Olsen (2008), A global model of mantle conductivity derived from 7 years of CHAMP, Oersted, and SAC-C magnetic data, Poster on 19th EMIW China. Kuvshinov, A., H. Utada, A. Avdeev, and T. Koyama (2005), 3-D modelling and analysis of Dst C-responses in the North Pacific Ocean region, revisited, Geophysical Journal International, 160, 505–526. Kuvshinov, A. V., N. Olsen, D. B. Avdeev, and O. V. Pankratov (2002), Electromagnetic induction in the oceans and the anomalous behaviour of coastal C-responses for periods up to 20 days, Geophysical Research Letter, 29(12), 1595–1599, doi: 10.1029/2001GL014409. Lahiri, B. N., and A. T. Price (1939), Electromagnetic induction in non-uniform conductors, and the determination of the conductivity of the Earth from terrestrial magnetic variations, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 237(784), 509–540. Langer, R. (1933), An inverse problem in differential equations, Bulletin of the American Mathematical Society, 39, 814–820. Larsen, J. (1989), Transfer functions: Smooth estimates by least-square and remote reference methods, Geophysical Journal International, 99(3), 645–663, doi:10.1111/j. 1365-246X.1989.tb02048.x. Larsen, J. C., R. L. Mackie, A. Manzella, A. Fiordelisi, and S. Rieven (1996), Robust smooth magnetotelluric transfer functions, Geophysical Journal International, 124(3), 801–819, doi:10.1111/j.1365-246X.1996.tb05639.x. Ledo, J. (2005), 2-D versus 3-D magnetotelluric data interpretation, Surveys in Geophysics, 26, 511–543. Ledo, J., and A. G. Jones (2005), Upper mantle temperature determined from combining mineral composition, electrical conductivity laboratory studies and magnetotelluric field observations: Application to the intermontane belt, Northern Canadian Cordillera, Earth and Planetary Science Letters, 236, 258–268. 345
- Page 330 and 331: A. Appendix A.2.4. Computation time
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- Page 348 and 349: A. Appendix A.4. Auxiliary figures
- Page 350 and 351: A. Appendix 314 ρ TE(Ω−m) φ T
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Bibliography<br />
Karato, S., Z. Wang, B. Liu, and K. Fujino (1995), Plastic deformation of garnets: systematics<br />
and implications for the rheology of the mantle transition zone, Earth and<br />
Planetary Science Letters, 130(1-4), 13 – 30, doi:10.1016/0012-821X(94)00255-W.<br />
Karato, S., M. R. Riedel, and D. A. Yuen (2001), Rheological structure and deformation<br />
of subducted slabs in the mantle transition zone: implications for mantle circulation<br />
and deep earthquakes, Physics of The Earth and Planetary Interiors, 127(1-4), 83 –<br />
108, doi:10.1016/S0031-9201(01)00223-0.<br />
Kaufman, A. (1985), Tutorial: Distributing of alternating electrical charges in a conducting<br />
medium, Geophysical Prospecting, 33, 171–184.<br />
Kellett, R. L., M. Mareschal, and R. D. Kurtz (1992), A model of lower crustal electrical<br />
anisotropy for the Pontiac Subprovince of the Canadian Shield, Geophysical Journal<br />
International, 111(1), 141–150, doi:10.1111/j.1365-246X.1992.tb00560.x.<br />
Kelley, M. C. (1989), The Earth’s ionosphere: Plasma physics and electrodynamics, International<br />
Geophysics Series, vol. 43, 1 ed., Academic Press, Elsevier, 525 B, Street<br />
Suite 1900, San Diego, California 92101-4495, USA, reprint: Dec.2009, 2nd edition,<br />
vol. 96, ISBN 978-0-12-088425-4.<br />
Kennett, B. L. N., E. R. Engdahl, and R. Buland (1995), Constraints on seismic velocities<br />
in the Earth from travel times, Geophysical Journal International, 122, 108–125.<br />
Kisabeth, J., and G. Rostoker (1977), Modeling of three-dimensional current systems<br />
associated with magnetospheric substorms, Geophysical Journal of the Royal Astronomical<br />
Society, 49, 655–683.<br />
Kopylova, M., J. Lo, and N. Christensen (2004), Petrological constraints on seismic<br />
properties of the Slave upper mantle (northern Canada), Lithos, 77, 493–510, doi:<br />
10.1016/j.lithos.2004.03.012.<br />
Korja, T. (2007), How is the European lithosphere imaged by magnetotellurics?, Surveys<br />
in Geophysics, 28, 239–272, doi:10.1007/s10712-007-9024-9.<br />
Korja, T., P. Tuisku, T. Pernu, and J. Karhu (1996), Lapland Granulite Belt: Implications<br />
for properties and evolution of deep continental crust, Terra Nova, 8, 48–58.<br />
Koulakov, I., M. K. Kaban, M. Tesauro, and S. Cloetingh (2009), P- and S-velocity<br />
anomalies in the upper mantle beneath europe from tomographic inversion of ISC data,<br />
Geophysical Journal International, 179(1), 345–366, doi:10.1111/j.1365-246X.2009.<br />
04279.x.<br />
Kreutzmann, A., A. Neska, H. Brasse, and the EMTESZ Working Group (2005), The<br />
EMTESZ project: Induction vectors, strikes and 2-D modelling, in 21. Kolloquium der<br />
Elektromagnetischen Tiefenforschung, edited by O. Ritter and H. Brasse, pp. 288–291.<br />
344