SEARCH

SEARCH BY CITATION

REFERENCES

  • Banerjee S. K. and Hargraves R. B. 1972. Natural remanent magnetizations of carbonaceous chondrites and the magnetic field in the early solar system. Earth and Planetary Science Letters 17: 110119.
  • Brecher A. and Arrhenius G. 1974. The paleomagnetic record in carbonaceous chondrites: Natural remanence and magnetic properties. Journal of Geophysical Research 79: 20812106.
  • Caro G. M. M., Meierhenrich U. J., Schutte W. A., Barbier B., Segovia A. A., Rosenbauer H., Thiemann W. H. P., Brack A., and Greenberg J. M. 2002. Amino acids from ultraviolet irradiation of interstellar ice analogues. Nature 416: 403406.
  • Cisowski S. M., Collinson D. W., Runcorn S. K., Stephenson A., Fuller M., Boynton W. V., and Ahrens T. J. 1983. A review of lunar paleointensity data and implications for the origin of lunar magnetism. Proceedings, 13th Lunar and Planetary Science Conference. pp. A691A704.
  • Cisowski S. M. and Fuller M. 1986. Lunar paleointensities via the IRMs normalization method and the early magnetic history of the Moon. In Origin of the Moon (edited by HartmannW. K., PhillipsR. J., and TaylorG. J. Houston: Lunar and Planetary Institute. pp. 411424.
  • Cronin J. R. and Moore C. B. 1971. Amino acid analyses of Murchison, Murray, and Allende carbonaceous chondrites. Science 172: 13271971.
  • Desch S. J. and Cuzzi J. N. 2000. The generation of lightning in the solar nebula. Icarus 143: 87105.
  • Dunlop D. J. and Kletetschka G. 2001. Multidomain hematite: A source of planetary magnetic anomalies? Geophysical Research Letters 28: 33453348.
  • Dunlop D. J. and Waddington E. D. 1975. The field dependence of thermoremanent magnetization in igneous rocks. Earth and Planetary Science Letters 25: 1125.
  • Engel M. H. and Macko S. A. 1997. Isotopic evidence for extraterrestrial non-racemic aminoacids in the Murchison meteorite. Nature 389: 265268.
  • Epstein S., Krishnamurthy R. V., Cronin J. R., Pizzarello S., and Yuen G. U. 1987. Unusual stable isotope ratios in aminoacid and carboxylic acid extracts from Murchison meteorite. Nature 326: 477479.
  • Fuchs L. H., Olsen E., and Jensen K. J. 1973. Mineralogy, mineral-chemistry, and composition of the Murchison (C2) meteorite. Washington D.C.: Smithsonian Institution Press. 39 p.
  • Fuller M. 1974. Lunar magnetism. Reviews of Geophysics 12: 2370.
  • Hart M. and Fuller M. 1988. Magnetization of a dolomite bed in the Monterey formation: Implications for diagenesis. Geophysical Research Letters 15: 491494.
  • Kletetschka G., Wasilewski P. J., and Berdichevsky M. 2001. Magnetic effects on Bjurbole (L4) chondrules moving from the space to terrestrial environments (abstract #1958). 32nd Lunar and Planetary Science Conference.
  • Kletetschka G., Wasilewski P. J., and Taylor P. T. 2000. Unique thermoremanent magnetization of multidomain sized hematite: Implications for magnetic anomalies. Earth and Planetary Science Letters 176: 469479.
  • Kvenvolden K. A., Lawless J. G., and Ponnamperuma C. 1971. Nonprotein aminoacids in the Murchison meteorite. Proceedings of the National Academy of Sciences 68: 486490.
  • Miller S. L. 1957. The mechanism of synthesis of amino acids by electric discharge. Biochimica et Biophysica Acta 23: 480489.
  • Oparin A. I. 1957. The origin of life on the Earth. In Proceedings of the First International Symposium. London, Moscow: Pergamon Press.
  • Oró J. 1990. The origin and early evolution of life on Earth. Annual Review of Earth and Planetary Sciences 18: 317356.
  • Özdemir Ö. and O'Reilly W. 1982. An experimental study of the intensity and stability of thermoremanent magnetization acquired by synthetic monodomain titanomagnetite substituted by aluminium. Geophysical Journal of the Royal Astronomical Society 70: 141154.
  • Stephens A. and Collinson D. W. 1974. Lunar magnetic field paleointensities determined by an anhysteretic remanent magnetization method. Earth and Planetary Science Letters 23: 220228.
  • Thellier E. and Thellier O. 1959. Sur l'intensite du champ magnetique terrestre dans le passe historique et geologique. Annales Geophysique 15: 285376.
  • Tucker P. and O'Reilly W. 1980. The acquisition of thermoremanent magnetization by multidomain single-crystal titanomagnetite. Geophysical Journal of the Royal Astronomical Society 63: 2136.
  • Wasilewski P. and Kletetschka G. 1999. Lodestone, nature's only permanent magnet: What it is and how it gets charged. Geophysical Research Letters 26: 22752278.
  • Wasilewski P. J. 1977. Magnetic and microstructural properties of some lodestones. Physics of the Earth and Planetary Interiors 15: 349362.
  • Wasilewski P. J. 1981. Magnetization of small iron-nickel spheres. Physics of Earth and Planetary Interiors 26: 149161.
  • Wolman Y., Haverland W. H., and Miller S. L. 1972. Non-protein aminoacids from spark discharges and their comparison with the Murchison meteorite amino acids. In Proceedings of the National Academy of Sciences. Washington D.C.: National Academy of Sciences. pp. 809811.