Segui
Qingyuan Yang
Titolo
Citata da
Citata da
Anno
Late Quaternary eruption record and probability of future volcanic eruptions in the Long Valley volcanic region (CA, USA)
A Bevilacqua, M Bursik, A Patra, E Bruce Pitman, Q Yang, R Sangani, ...
Journal of Geophysical Research: Solid Earth 123 (7), 5466-5494, 2018
372018
A new interpolation method to model thickness, isopachs, extent, and volume of tephra fall deposits
Q Yang, M Bursik
Bulletin of Volcanology 78 (10), 1-21, 2016
302016
The Millennium Eruption of Changbaishan Tianchi Volcano is VEI 6, not 7
Q Yang, SF Jenkins, GA Lerner, W Li, T Suzuki, D McLean, AN Derkachev, ...
Bulletin of Volcanology 83 (11), 1-10, 2021
162021
Evaluating and ranking Southeast Asia's exposure to explosive volcanic hazards
SF Jenkins, S Biass, GT Williams, JL Hayes, E Tennant, Q Yang, V Burgos, ...
Natural Hazards and Earth System Sciences 22 (4), 1233-1265, 2022
152022
Tephra deposit inversion by coupling Tephra2 with the Metropolis-Hastings algorithm: algorithm introduction and demonstration with synthetic datasets
Q Yang, EB Pitman, M Bursik, SF Jenkins
Journal of Applied Volcanology 10 (1), 1-24, 2021
102021
Novel statistical emulator construction for volcanic ash transport model Ash3d with physically motivated measures
Q Yang, EB Pitman, E Spiller, M Bursik, A Bevilacqua
Proceedings of the Royal Society A 476 (2242), 20200161, 2020
82020
Stratigraphic and sedimentologic framework for tephras in the Wilson Creek Formation, Mono Basin, California, USA
Q Yang, M Bursik, S Pouget
Journal of Volcanology and Geothermal Research 374, 197-225, 2019
72019
Simulating the Transport and Dispersal of Volcanic Ash Clouds With Initial Conditions Created by a 3D Plume Model
Z Cao, M Bursik, Q Yang, A Patra
Frontiers in Earth Science, 807, 2021
52021
A new method to identify the source vent location of tephra fall deposits: development, testing, and application to key Quaternary eruptions of Western North America
Q Yang, M Bursik, EB Pitman
Bulletin of Volcanology 81 (9), 1-31, 2019
52019
The Development of Volcanic Ash Cloud Layers over Hours to Days Due to Atmospheric Turbulence Layering
M Bursik, Q Yang, A Bear-Crozier, M Pavolonis, A Tupper
Atmosphere 12 (2), 285, 2021
22021
Real-time tephra detection and dispersal forecasting by a ground-based weather radar
M Syarifuddin, SF Jenkins, RI Hapsari, Q Yang, B Taisne, AB Aji, N Aisyah, ...
Remote Sensing 13 (24), 5174, 2021
22021
Two sources of uncertainty in estimating tephra volumes from isopachs: perspectives and quantification
Q Yang, SF Jenkins
Bulletin of Volcanology 85 (8), 44, 2023
12023
Tephra inversion with Tephra2 and the Metropolis-Hastings algorithm
Q Yang, EB Pitman, MI Bursik, S Jenkins
12020
A new method to identify the vent location of tephra fall deposits based on thickness or maximum clast size measurements (SVL)
Q Yang, MI Bursik, EB Pitman
12018
How well do concentric radii approximate population exposure to volcanic hazards?
S Biass, SF Jenkins, JL Hayes, GT Williams, ES Meredith, E Tennant, ...
Bulletin of Volcanology 86 (1), 3, 2023
2023
Tephra Deposit Inversion by Coupling TEPHRA2 With the Metropolis-Hastings Algorithm and Its Implications
Q Yang, EB Pitman, M Bursik, SF Jenkins
2020
Validation data for manuscript" Novel statistical emulator construction for volcanic ash transport model Ash3d with physically-motivated measures"
Q Yang, EB Pitman, E Spiller, M Bursik, A Bevilacqua
2020
A new method to estimate the source vent location of tephra fall deposits based on thickness and maximum clast size measurements and its validation and application
Q Yang, MI Bursik, EB Pitman
AGU Fall Meeting Abstracts 2018, V51F-0164, 2018
2018
A new method to model thickness distribution and estimate volume and extent of tephra fall deposits
Q Yang, MI Bursik
AGU Fall Meeting Abstracts 2016, V11A-2749, 2016
2016
Updated version of an algorithm for tephra isopach, extent and volume calculation in R
MI Bursik, Q Yang
2016
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
Articoli 1–20