Section 2 Papers
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| 2-01 | Ammon, C., M. Maceira, and M. Cleveland
3D Modeling of Iran and Surrounding Areas from Simultaneous Inversion of Multiple Geophysical Datasets |
| 2-02 | Ballard, S., M. Begnaud, C. Young, J. Hipp, M. Chang, A. Encarnacao, C. Rowe, W. Phillips, and L. Steck
A Global 3D P-Velocity Model of the Earth's Crust and Mantle for Improved Event Location — SALSA3D |
| 2-03 | Chen, P., Y. Chen, and W. Chan
Joint Inversion for Crustal and Upper Mantle Shear-Wave Velocity and Attenuation Structure in Eastern Eurasia Using Three-Dimensional Full-Wave Frechet Kernels |
| 2-04 | Fisk, M. and W. Phillips
A Stepwise, Iterative Procedure to Constrain Stress Drop, Regional Attenuation Models, and Site Effects |
| 2-05 | Gritto, R., M. Sibol, P. Caron, H. Ghalib, R. Herrmann, G. Aleqabi, B. Ali, and A. Ali
Crustal Velocity Models of the Zagros-Bitlis Zone from Body- and Surface Wave Analyses |
| 2-06 | Hauser, J., K. Dyer, M. Pasyanos, H. Bungum, J. Faleide, and S. Clark
Development and Tuning of a 3D Stochastic Inversion Methodology to the European Arctic |
| 2-07 | Julia, J., A. Nyblade, A. Rodgers, and E. Matzel
Developing Regionalized Models of Lithospheric Thickness and Velocity Structure Across Eurasia and the Middle East from Jointly Inverting P-Wave and S-Wave Receiver Functions with Rayleigh Wave Group and Phase Velocities |
| 2-08 | Maceira, M., H. Zhang, R. Modrak, C. Rowe, and M. Begnaud
Advanced Multivariate Inversion Techniques for High Resolution 3D Geophysical Modeling |
| 2-09 | Mackey, K., H. Hartse, K. Fujita, M. Pasyanos, and M. Begnaud
Seismic and Geophysical Characterization of Northern Asia |
| 2-10 | Martin, R., L. Gulen, Y. Sun, and M. Toksoz
The Crustal and Mantle Velocity Structure in Central Asia from 3D Travel Time Tomography |
| 2-11 | Masters, T., Z. Ma, G. Laske, and M. Pasyanos
LITHO1.0: An Updated Crust and Lithosphere Model of the Earth |
| 2-12 | Mayeda, K. and W. Phillips
Transitioning the Coda Methodology to Full 2-D for P and S Codas |
| 2-13 | Miller, K., M. Arrowsmith, W. Phillips, S. Harder, L. Worthington, A. Sheehan, and M. Anderson
Assessment of Regional Explosion Discriminants Using Datasets of Unparalleled Spatial Sampling: The Big Horns Array Seismic Experiment (BASE) |
| 2-14 | Nabelek, J., S. Carpenter, P. Monigle, J. Braunmiller, and W. Phillips
Source and Path Calibration in Regions of Poor Crustal Propagation Using Temporary, Large-Aperture, High-Resolution Seismic Arrays |
| 2-15 | Nowack, R., W. Chen, J. Griffin, A. Bakir, and T. Tseng
The Propagation of Pn in Western China |
| 2-16 | Pollitz, F., J. Rubinstein, and W. Ellsworth
Analysis and Modeling of the Wavefield Generated by Explosions at the San Andreas Fault Observatory at Depth |
| 2-17 | Reiter, D., W. Rodi, and S. Myers
Estimating the Uncertainty and Predictive Capabilities of Three-Dimensional Earth Models |
| 2-18 | Rodgers, A., O. Vorobiev, N. Petersson, B. Sjogreen, and W. Foxall
Progress in Three-Dimensional Simulations of Explosions and Earthquakes |
| 2-19 | Sandvol, E., X. Bao, J. Ni, T. Hearn, and W. Phillips
High-Resolution Seismic Velocity and Attenuation Models of Western China |
| 2-20 | Savage, B., D. Peter, B. Covellone, A. Rodgers, and J. Tromp
Next Generation, Waveform Based Three-Dimensional Models and Metrics to Improve Nuclear Explosion Monitoring in the Middle East |
| 2-21 | Sen, M., J. Pulliam, U. Dutta, R. Ghosh, R. Gok, and M. Pasyanos
Seismic Velocity Estimation in the Middle East from Multiple Waveform Functionals: P & S Receiver Functions, Waveform Fitting, and Surface Wave Dispersion |
| 2-22 | Song, X., Z. Xu, L. Zhu, and Y. Zhou
Joint Inversion of Crustal and Uppermost Mantle Structure in Western China |
| 2-23 | Zhang, J., P. Gerstoft, and S. Taylor
Body-Wave Arrivals from Seismic Noise |
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