• Baglin C. M. 1976. Nuclear data sheets for A=81. Nuclear Data Sheets 18:3.
  • Baglin C. M. 2008. Nuclear data sheets for A = 81. Nuclear Data Sheets 109:22572437.
  • Boss A. P. 1996. A concise guide to chondrule formation models. In Chondrules and the protoplanetary disk, edited by Hewins R. H., Jones R. H., and Scott E. R. D. Cambridge, UK: Cambridge University Press. pp. 257263.
  • Busmann H., Baur H., and Wieler R. 2000. Primordial noble gases in “phase Q” in carbonaceous and ordinary chondrites studied by closed-system stepped etching. Meteoritics & Planetary Science 35:949973.
  • Eugster O., Eberhardt P., and Geiss J. 1967. 81Kr in meteorites and 81Kr radiation ages. Earth and Planetary Science Letters 2:385393.
  • Hohenberg C. M., Nichols R. H., Olinger C. T., and Goswami J. N. 1990. Cosmogenic neon from individual grains of CM meteorites: Extremely long pre-compaction exposure histories or an enhanced early particle flux. Geochimica et Cosmochimica Acta 54:21332140.
  • Leya I. and Masarik J. 2009. Cosmogenic nuclides in stony meteorites revisited. Meteoritics & Planetary Science 44:10611086.
  • Leya I., Begemann F., Weber H. W., Wieler R., and Michel R. 2004a. Simulation of the interaction of GCR protons with meteoroids—On the production of 3H and light noble gas isotopes in isotropically irradiated thick gabbro and iron targets. Meteoritics & Planetary Science 39:367386.
  • Leya I., Gilabert E., Lavielle B., Wiechert U., and Wieler R. 2004b. Production rates for cosmogenic krypton and argon isotopes in H-chondrites with known 36Cl-36Ar ages. Antarctic Meteorite Research 17:185199.
  • Marti K. 1967. Mass spectrometric detection of cosmic-ray-produced Kr81 in meteorites and possibility of Kr-Kr dating. Physical Review Letters 18:264266.
  • Marti K. and Lugmair G. W. 1971. Kr81-Kr and K-Ar40 Ages, Cosmic ray spallation products, and neutron effects in lunar samples from Oceans Procellarum. In Apollo 12 Lunar Science Conference, edited by Levinson A. A. Cambridge, MA: MIT press. pp. 15911605.
  • Miura Y. N., Nagao K., Fujitani T., and Fujitani T. 1998. Noble gases, 81Kr-Kr exposure ages and 244Pu-Xe ages of six eucrites, Béréba, Binda, Camel Donga, Juvinas, Millbillillie, and Stannern. Geochimica et Cosmochimica Acta 62:23692387.
  • Morgan J. W., Janssens M., Takahashi H., Hertogen J., and Anders W. 1985. H-chondrites: Trace element clues to their origin. Geochimica et Cosmochimica Acta 49:247259.
  • Ozima M., Wieler R., Marty B., and Podosek F. A. 1998. Comparative studies of solar, Q-gases and terrestrial noble gases, and implications on the evolution of the solar nebula. Geochimica et Cosmochimica Acta 62:301314.
  • Polnau E., Eugster O., Krähenbühl U., and Marti K. 1999. Evidence for a precompaction exposure to cosmic rays in a chondrule from the H6 chondrite ALH 76008. Geochimica et Cosmochimica Acta 63:925933.
  • Polnau E., Eugster O., Burger M., Krähenbühl U., and Marti K. 2001. Precompaction exposure of chondrules and implications. Geochimica et Cosmochimica Acta 65:18491866.
  • Roth A. S., Baur H., Heber V. S., Reusser E., and Wieler R. 2011. Cosmogenic helium and neon in individual chondrules from Allende and Murchison: Implications for the precompaction exposure history of chondrules. Meteoritics & Planetary Science 46:9891006.
  • Shukolyukov A. and Begemann F. 1996. Cosmogenic and fissiogenic noble gases and 81Kr-Kr exposure age clusters of eucrites. Meteoritics & Planetary Science 31:6072.
  • Strashnov I., Blagburn D. J., Thonnard N., and Gilmour J. D. 2009a. Tunable VUV light generation for resonance ionization mass spectrometry of Krypton. Optics Communications 282:966969.
  • Strashnov I., Blagburn D. J., and Gilmour J. D. 2009b. Hyperfine structure induced isotopic effects in Krypton resonance ionization mass spectrometry. Optics Communications 282:34873492.
  • Strashnov I., Blagburn D. J., and Gilmour J. D. 2011. A resonance ionization time of flight mass spectrometer with a cryogenic sample concentrator for isotopic analysis of krypton from extraterrestrial samples. Journal of Analytical Atomic Spectrometry 26:17631772.
  • Strashnov I., Bland P. A., Spurny P., Towner M. C., and Gilmour J. D. 2012. Times of impacts that deliver samples of Vesta to Earth derived from ultrasensitive 81Kr-Kr cosmic ray exposure age analysis of eucrites. Geochimica et Cosmochimica Acta 106:7183.
  • Welch B. L. 1947. The generalization of “Student's” problem when several different population variances are involved. Biometrika 34:2835.
  • Wieler R., Pedroni A., and Leya I. 2000. Cosmogenic neon in mineral separates from Kapoeta: No evidence for an irradiation of its parent body regolith by an early active Sun. Meteoritics & Planetary Science 35:251257.
  • Wiley W. C. and McLaren I. H. 1955. Time-of-flight mass spectrometer with improved resolution. Review of Scientific Instruments 26:1150.