Thermal Modeling and Plutons
- Ratschbacher, B.C., C.B. Keller, B. Schoene, S.R. Paterson, J.L. Anderson, D. Okaya, K. Putirka, and R. Lippoldt, 2018, A new workflow to assess emplacement duration and melt residence time of compositionally diverse magmas emplaced in a sub-volcanic reservoir, J. Petrology., p. 1-23, doi:10/1093/petrology/egy079.
- Paterson, S.R., D. Okaya, V. Memeti, R. Economos, and R. Miller, 2011, Magma addition and flux calculations of incrementally constructed magma chambers in continental margin arcs: combined field, geochronologic, and thermal modeling studies, Geosphere, 7, 1439-1468.
- Memeti, V., S. Paterson, J. Matzel, R. Mundil., and D. Okaya, 2010, Magmatic lobes as “snapshots” of magma chamber growth and evolution in large, composite batholiths: An example from the Tuolumne intrusion, Sierra Nevada, California, Bull. Geol. Soc. Amer., 122, 1912-1931, doi:10.1130/B30004.1.
- Albertz, M., S.R. Paterson, and D. Okaya, 2005, Fast strain rates during pluton emplacement: magmatically folded leucocratic dikes in aureoles of the Mount Stuart Batholith, Washington, and the Tuolumne Intrusive Suite, California, Bull. Geol. Soc. Amer, 117, 450-465.
- Yoshinobu, A., D. Okaya, and S. Paterson, 1998, Modeling the thermal evolution of fault-controlled magma emplacement models: implications for the solidification of plutons, J. Structural Geology, 20, 1205-1208.