MAAN RAKENTEEN TUTKIMINEN TIMANTTIPURISTIMEN AVULLA
MAAN RAKENTEEN TUTKIMINEN TIMANTTIPURISTIMEN AVULLA
MAAN RAKENTEEN TUTKIMINEN TIMANTTIPURISTIMEN AVULLA
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
KIRJALLISUUSVIITTEETAkella, J., 1996. The Diamond Anvil Cell: Probing the Behavior of Metals under UltrahighPressures. Science & Technology Review March.Badro, J., Fiquet, G., Guyot, F., Gregoryanz, E., Occelli, F., Antonangeli, D., d'Astuto, M., 2007.Effect of light elements on the sound velocities in solid iron: Implication for the composition ofEarth's core. Eart and Planetary Science Letters 254, 233-238.Burns, G., 1985. Solid State Physics. Academic Press Inc.Fiquet, G., Badro, J., Guyot, F., Requard, H., Krisch, M., 2001. Sound Velocities in Iron to 110Gigapascals. Science 291, 468-471.Fiquet, G., Badro, J., Guyot, F., Bellin, Ch., Krisch, M., Antonangeli, D., Requardt, H., Mermet, A.,Farber, D., Arcane-Ruddle, C., Zhang, J., 2004. Application of inelastic X-Ray scattering to themeasurements of acoustic wave velocities in geophysical materials at very high pressure. Physics ofthe Earth and Planetary Interiors 143-144, p. 5-18.Fowler, C.M.R., 2005. The Solid Earth: An Introduction to Global geophysics. CambridgeUniversity Press.Lowrie, W., 1997. Fundamentals of Geophysics. Cambridge University Press.Irifune, T., Isshiki, M., Sakamoto, S., 2005. Transmission electron microscope of the high-pressureform of magnesite retrieved from laser heated diamond anvil cell. Earth and Planetary ScienceLetters 239, p. 98-105.Murakami, M., Sinogeikin, S.V., Hellwig, H., Bass, J., Li, J., 2007a. Sound velocity of MgSiO 3perovskite to Mbar pressure. Earth and Planetary Science letters 256, p. 47-54.Murakami, M., Sinogeikin, S., Bass, J., Sata, N., Ohishi, Y., Hirose, K., 2007b. Sound velocity ofMgSiO 3 post-perovskite phase: A constraint on the D’’ discontinuity. Eart and Planetary Science26