Demonstration of neutron radiation-induced nucleation of supercooled water.
暂无分享,去创建一个
P. Wilson | M. Szydagis | C. Levy | A. Kamaha | G. Rischbieter | Yujia Huang | C. Knight
[1] V. C. Antochi,et al. Search for Light Dark Matter Interactions Enhanced by the Migdal Effect or Bremsstrahlung in XENON1T. , 2019, Physical review letters.
[2] Long-term deep-supercooling of large-volume water and red cell suspensions via surface sealing with immiscible liquids , 2018, Nature Communications.
[3] D. Barahona. On the thermodynamic and kinetic aspects of immersion ice nucleation , 2017, Atmospheric Chemistry and Physics.
[4] C. Trautmann,et al. Shrinking of Rapidly Evaporating Water Microdroplets Reveals their Extreme Supercooling. , 2017, Physical review letters.
[5] S. Klein,et al. Observation of coherent elastic neutrino-nucleus scattering , 2017, Science.
[6] C. J. Chen,et al. Dark Matter Search Results from the PICO-60 C_{3}F_{8} Bubble Chamber. , 2017, Physical review letters.
[7] G. Mann,et al. Global atmospheric particle formation from CERN CLOUD measurements , 2016, Science.
[8] B. Murray,et al. Rate of Homogenous Nucleation of Ice in Supercooled Water. , 2016, The journal of physical chemistry. A.
[9] U. Lohmann,et al. Ice nucleation efficiency of AgI: review and new insights , 2016 .
[10] P. Wilson,et al. The effect of stirring on the heterogeneous nucleation of water and of clathrates of tetrahydrofuran/water mixtures , 2016, 1603.07126.
[11] D. Barahona. Thermodynamic Derivation of the Activation Energy for Ice Nucleation , 2015 .
[12] S Priya,et al. Dark Matter Search Results from the PICO-2L C3F8 Bubble Chamber. , 2015, Physical review letters.
[13] L. Uplegger,et al. Direct Measurement of the Bubble Nucleation Energy Threshold in a CF3I Bubble Chamber , 2013, 1304.6001.
[14] P. Wilson,et al. The spread of nucleation temperatures of a sample of supercooled liquid is independent of the average nucleation temperature. , 2012, The journal of physical chemistry. B.
[15] M. Szydagis,et al. First dark matter search results from a 4-kg CF$_3$I bubble chamber operated in a deep underground site , 2012, 1204.3094.
[16] J.M.F. dos Santos,et al. Design and performance of the XENON10 dark matter experiment , 2010, 1001.2834.
[17] C. McCabe. Astrophysical uncertainties of dark matter direct detection experiments , 2010, 1005.0579.
[18] C. Dahl. The physics of background discrimination in liquid xenon, and first results from Xenon10 in the hunt for WIMP dark matter , 2009 .
[19] P. Wilson,et al. Effect of solutes on the heterogeneous nucleation temperature of supercooled water: an experimental determination. , 2009, Physical chemistry chemical physics : PCCP.
[20] S. Incerti,et al. Geant4 developments and applications , 2006, IEEE Transactions on Nuclear Science.
[21] G. Ewing,et al. Ice nucleation on BaF2(111). , 2005, The Journal of chemical physics.
[22] J. Curry,et al. The theory of ice nucleation by heterogeneous freezing of deliquescent mixed CCN. Part I: Critical radius, energy, and nucleation rate , 2004 .
[23] F. Yu. Formation of large NAT particles and denitrification in polar stratosphere: possible role of cosmic rays and effect of solar activity , 2004 .
[24] T. Lee,et al. Statistics of heterogeneous nucleation of supercooled aqueous solutions in a self-assembled monolayer-coated container , 2004 .
[25] A. Dell'Acqua,et al. Geant4 - A simulation toolkit , 2003 .
[26] B. Viren,et al. The Super-Kamiokande detector , 2003 .
[27] A. Haymet,et al. Liquid-to-crystal heterogeneous nucleation: bubble accelerated nucleation of pure supercooled water , 2003 .
[28] S. Fukudaa,et al. The Super-Kamiokande detector , 2003 .
[29] P. Wilson,et al. Heterogeneous nucleation of supercooled water, and the effect of an added catalyst , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[30] P. Wilson,et al. Liquid-to-crystal nucleation: Automated lag-time apparatus to study supercooled liquids , 2001 .
[31] G. Seidler,et al. Laboratory investigation of possible ice nucleation by ionizing radiation in pure water at tropospheric temperatures , 2001 .
[32] D. Oxtoby. Nucleation of First-Order Phase Transitions , 1998 .
[33] L R Maki,et al. Ice Nucleation Induced by Pseudomonas syringae , 1974, Applied microbiology.
[34] N. Varshneya. THEORY OF RADIATION DETECTION THROUGH SUPERCOOLED LIQUID. , 1971 .
[35] R. Schiller,et al. RADIATION CHEMISTRY OF SUPERCOOLED WATER. , 1971 .
[36] N. Varshneya. Detecting Radiation with a Supercooled Liquid , 1969, Nature.
[37] S. C. Keeton,et al. Nuclear Radiation Dose Rate Influence on Thermocouple Calibration , 1968 .
[38] N. Varshneya. ON THE PRINCIPLE OF A RADIATION DETECTOR , 1965 .
[39] Iu. M. Kagan. On the Theory of the Bubble Chamber , 1958 .
[40] F. Seitz. On the Theory of the Bubble Chamber , 1958 .