Pages that link to "Item:Q47819"

The following pages link to Larry G. Mastin, Ph.D. (Q47819):

Displayed 50 items.

• Electron microprobe analyses of glasses from Kīlauea tephra units, Kīlauea Volcano, Hawaii (Q60273) ‎ (← links)
• Preliminary spreadsheet of eruption source parameters for volcanoes of the world (Q64754) ‎ (← links)
• Constraints on the size, overpressure, and volatile content of the Mount St. Helens magma system from geodetic and dome-growth measurements during the 2004-2006+ eruption (Q66103) ‎ (← links)
• A simple calculator of ballistic trajectories for blocks ejected during volcanic eruptions (Q73181) ‎ (← links)
• A numerical program for steady-state flow of magma-gas mixtures through vertical eruptive conduits (Q74324) ‎ (← links)
• Explosive eruptions at Kilauea Volcano, Hawai'i? (Q76242) ‎ (← links)
• Can rain cause volcanic eruptions? (Q84675) ‎ (← links)
• What makes hydromagmatic eruptions violent? Some insights from the Keanakāko'i Ash, Kı̄lauea Volcano, Hawai'i (Q144511) ‎ (← links)
• Asteroid impacts - downwind and downstream effects (Q145871) ‎ (← links)
• Near-real-time volcanic cloud monitoring: Insights into global explosive volcanic eruptive activity through analysis of Volcanic Ash Advisories (Q146547) ‎ (← links)
• Evidence for large compositional ranges in coeval melts erupted from Kīlauea's summit reservoir (Q148285) ‎ (← links)
• Improved constraints on the estimated size and volatile content of the Mount St. Helens magma system from the 2004–2008 history of dome growth and deformation (Q148970) ‎ (← links)
• Laboratory experiments of volcanic ash resuspension by wind (Q149200) ‎ (← links)
• Modeling ash dispersal from future eruptions of Taupo supervolcano (Q149684) ‎ (← links)
• Understanding and modeling tephra transport: Lessons learned from the 18 May 1980 eruption of Mount St. Helens (Q150120) ‎ (← links)
• Modelling the transport and deposition of ash following a magnitude 7 eruption: The distal Mazama tephra (Q150719) ‎ (← links)
• Forecasting and communicating the dispersion and fallout of ash during volcanic eruptions: lessons from the September 20, 2020 eruptive pulse at Sangay volcano, Ecuador (Q150768) ‎ (← links)
• Adjusting particle-size distributions to account for aggregation in tephra-deposit model forecasts (Q152691) ‎ (← links)
• Results of the eruptive column model inter-comparison study (Q153336) ‎ (← links)
• Testing the accuracy of a 1-D volcanic plume model in estimating mass eruption rate (Q155734) ‎ (← links)
• Modeling ash fall distribution from a Yellowstone supereruption (Q155774) ‎ (← links)
• Volcanic lightning and plume behavior reveal evolving hazards during the April 2015 eruption of Calbuco volcano, Chile (Q156009) ‎ (← links)
• Hail formation triggers rapid ash aggregation in volcanic plumes (Q234662) ‎ (← links)
• New Zealand supereruption provides time marker for the Last Glacial Maximum in Antarctica (Q240188) ‎ (← links)
• Injection, transport, and deposition of tephra during event 5 at Redoubt Volcano, 23 March, 2009 (Q244806) ‎ (← links)
• What makes hydromagmatic eruptions violent? Some insights from the Keanakāko'i Ash, Kı̄lauea Volcano, Hawai'i (Q248976) ‎ (← links)
• Did ice-charging generate volcanic lightning during the 2016–2017 eruption of Bogoslof volcano, Alaska? (Q253305) ‎ (← links)
• Comparing simulations of umbrella-cloud growth and ash transport with observations from Pinatubo, Kelud, and Calbuco volcanoes (Q253379) ‎ (← links)
• An experimental study of hydromagmatic fragmentation through energetic, non-explosive magma-water mixing (Q253939) ‎ (← links)
• New insights into the relationship between mass eruption rate and volcanic column height based on the IVESPA dataset (Q257734) ‎ (← links)
• Investigating the accuracy of one‐dimensional volcanic plume models using laboratory experiments and field data (Q260059) ‎ (← links)
• Globally detected volcanic lightning and umbrella dynamics during the 2014 eruption of Kelud, Indonesia (Q261350) ‎ (← links)
• Experimental study of near-field air entrainment by subsonic volcanic jets (Q262409) ‎ (← links)
• The Independent Volcanic Eruption Source Parameter Archive (IVESPA, version 1.0): A new observational database to support explosive eruptive column model validation and development (Q267244) ‎ (← links)
• Turbulence, entrainment and low-order description of a transitional variable-density jet (Q268935) ‎ (← links)
• Improved prediction and tracking of volcanic ash clouds (Q269534) ‎ (← links)
• A Bayesian method to rank different model forecasts of the same volcanic ash cloud: Chapter 24 (Q269980) ‎ (← links)
• Evaluating the state-of-the-art in remote volcanic eruption characterization Part II: Ulawun volcano, Papua New Guinea (Q277495) ‎ (← links)
• Generation of fine hydromagmatic ash by growth and disintegration of glassy rinds (Q280643) ‎ (← links)
• Flow development and entrainment in turbulent particle-laden jets (Q283075) ‎ (← links)
• Cycles of explosive and effusive eruptions at Kīlauea Volcano, Hawai‘i (Q285355) ‎ (← links)
• Evaluating the state-of-the-art in remote volcanic eruption characterization Part I: Raikoke volcano, Kuril Islands (Q288987) ‎ (← links)
• A review of common natural disasters as analogs for asteroid impact effects and cascading hazards (Q289771) ‎ (← links)
• Characterising, quantifying, and accessing eruption source parameters of explosive volcanic eruptions for operational simulation of tephra dispersion: A current view and future perspectives (Q294196) ‎ (← links)
• Ongoing efforts to make ash-cloud model forecasts more accurate (Q294497) ‎ (← links)
• Impact of reduced near-field entrainment of overpressured volcanic jets on plume development (Q294956) ‎ (← links)
• Asteroid impacts and cascading hazards (Q295897) ‎ (← links)
• A one-dimensional volcanic plume model for predicting ash aggregation (Q297004) ‎ (← links)
• A user-friendly one-dimensional model for wet volcanic plumes (Q301695) ‎ (← links)
• Ash3d: A finite-volume, conservative numerical model for ash transport and tephra deposition (Q311138) ‎ (← links)