论文信息 - The generation of gas overpressure in volcanic eruptions - 字舞流文

The generation of gas overpressure in volcanic eruptions

C. Jaupart | H. Massol

[1] A mechanism for the lateral transport of gas bubbles in silicic lava rising in a vertical conduit , 1998 .

[2] C. Jaupart,et al. Gas loss from magmas through conduit walls during eruption , 1998, Geological Society, London, Special Publications.

[3] R. Sparks,et al. Causes and consequences of pressurisation in lava dome eruptions , 1997 .

[4] É. Kaminski,et al. Expansion and quenching of vesicular magma fragments in Plinian eruptions , 1997 .

[5] R. Stevenson,et al. Vesiculation processes in a water-rich calc-alkaline obsidian , 1997 .

[6] S. Hurwitz,et al. Bubble growth in rhyolitic melts: experimental and numerical investigation , 1996 .

[7] K. Hess,et al. Viscosities of hydrous leucogranitic melts: A non-Arrhenian model , 1996 .

[8] R. Sparks,et al. Degassing during magma ascent in the Mule Creek vent (USA) , 1996 .

[9] C. Jaupart. Physical models of volcanic eruptions , 1996 .

[10] P. Richet,et al. Water and the viscosity of andesite melts , 1996 .

[11] Andrew W. Woods,et al. The dynamics of explosive volcanic eruptions , 1995 .

[12] M. Rutherford,et al. Crystallization of microlites during magma ascent: the fluid mechanics of 1980–1986 eruptions at Mount St Helens , 1995 .

[13] A. Woods,et al. Transitions between explosive and effusive eruptions of silicic magmas , 1994, Nature.

[14] K. Cashman,et al. Vesiculation of May 18, 1980, Mount St. Helens magma , 1994 .

[15] K. Cashman,et al. Physical aspects of magmatic degassing II. Constraints on vesiculation processes from textural studies of eruptive products. In , 1994 .

[16] Dork L. Sahagian,et al. Dynamics of diffusive bubble growth in magmas: Isothermal case , 1993 .

[17] M. Rutherford,et al. Magma ascent rates from amphibole breakdown: An experimental study applied to the 1980–1986 Mount St. Helens eruptions , 1993 .

[18] S. Kieffer,et al. Estimate of pyroclastic flow velocities resulting from explosive decompression of lava domes , 1993, Nature.

[19] H. Berg,et al. Compressible laminar flow in a capillary , 1993, Journal of Fluid Mechanics.

[20] D. Dingwell,et al. Deformation of foamed rhyolites under internal and external stresses: an experimental investigation , 1993 .

[21] S. Nakada,et al. Crumbling of dacite dome lava and generation of pyroclastic flows at Unzen volcano , 1992, Nature.

[22] H. Westrich,et al. Magmatic gas source for the stratospheric SO2 cloud from the June 15,1991, eruption of Mount Pinatubo , 1992 .

[23] F. Spera,et al. Rheology and microstructure of magmatic emulsions : theory and experiments , 1992 .

[24] C. Jaupart. The Eruption and Spreading of Lava , 1992 .

[25] C. Jaupart,et al. Gas content, eruption rate and instabilities of eruption regime in silicic volcanoes , 1991 .

[26] C. Jaupart,et al. Dynamics of eruptive phenomena , 1990 .

[27] Atsushi Toramaru,et al. Vesiculation process and bubble size distributions in ascending magmas with constant velocities , 1989 .

[28] S. Newman,et al. Water, carbon dioxide, and hydrogen isotopes in glasses from the ca. 1340 A.D. eruption of the Mono Craters, California: Constraints on degassing phenomena and initial volatile content , 1988 .

[29] H. Westrich,et al. Non-explosive silicic volcanism , 1986, Nature.

[30] Thomas W. Chapman,et al. Laminar compressible flow in a tube , 1986 .

[31] H. Westrich,et al. Hydrogen isotopic evidence of rhyolitic magma degassing during shallow intrusion and eruption , 1983, Nature.

[32] C. Newhall,et al. Explosive activity associated with the growth of volcanic domes , 1983 .

[33] L. Wilson. Relationships between pressure, volatile content and ejecta velocity in three types of volcanic explosion , 1980 .

[34] R. Bird,et al. The dilatational properties of suspensions of gas bubbles in incompressible newtonian and non-newtonian fluids , 1978 .

[35] H. R. Shaw. Obsidian‐H2O viscosities at 1000 and 2000 bars in the temperature range 700° to 900°C , 1963 .

[36] Geoffrey Ingram Taylor,et al. The two coefficients of viscosity for an incompressible fluid containing air bubbles , 1954, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[37] J. Sibree. The viscosity of froth , 1934 .