Yu-Hang Tang

Yu-Hang Tang 汤雨杭

Ph.D. candidate

yuhang_tang@brown.edu
Division of Applied Mathematics
Brown University
182 George Street
Providence, RI 02912, USA

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The successful application of computer simulation techniques for solving problems in physical sciences requires interdisciplinary effort spanning mathemaitcs, physical science, and software implementation. My Ph.D. study focuses on mesoscopic particle-based simulation methods following this principle. Touring the landscape took effort, but in return awarded me the skills to tackle the most demanding computational challenges in biological and material science using sophisticated methods and cutting-edge computer resources.

2017

[1]	Tang, Y.H., Lu, L., Grinberg, L., Li, H., Sachdeva, V., Evangelinos, C. & Karniadakis, G.E. OpenRBC: A Fast Simulator of Red Blood Cells at Protein Resolution. Biophysical Journal, 112(10):2030-2037, 2017.
[2]	Blumers, A.L., Tang, Y.H., Li, Z., Li, X. & Karniadakis, G.E. GPU-accelerated red blood cells simulations with transport dissipative particle dynamics. Computer Physics Communications, 217:171-179, 2017.

2016

[1]	Tang, Y.H., Li, Z., Li, X., Deng, M. & Karniadakis, G.E. Non-Equilibrium Dynamics of Vesicles and Micelles by Self-Assembly of Block Copolymers with Double Thermoresponsivity. Macromolecules, 49(7):2895-2903, 2016.
[2]	Bian, X., Deng, M., Tang, Y.H. & Karniadakis, G.E. Analysis of hydrodynamic fluctuations in heterogeneous adjacent multidomains in shear flow. Physical Review E, 93(3):033312, 2016.
[3]	He, F., Li, Y., Tang, Y.H., Ma, J. & Zhu, H. Identifying micro-inversions using high-throughput sequencing reads. BMC genomics, 17(1):141, 2016.
[4]	Li, X., Du, E., Lei, H., Tang, Y.H., Dao, M., Suresh, S. & Karniadakis, G.E. Patient-specific blood rheology in sickle-cell anaemia. Interface focus, 6(1):20150065, 2016.

2015

[1]	Rossinelli, D., Tang, Y.H., Lykov, K., Alexeev, D., Bernaschi, M., Hadjidoukas, P., Bisson, M., Joubert, W., Conti, C., Karniadakis, G. & thers, . The in-silico lab-on-a-chip: petascale and high-throughput simulations of microfluidics at cell resolution. In Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis, 2015.
[2]	Tang, Y.H., Kudo, S., Bian, X., Li, Z. & Karniadakis, G.E. Multiscale Universal Interface: A concurrent framework for coupling heterogeneous solvers. Journal of Computational Physics, 297:13-31, 2015.
[3]	Li, Z., Tang, Y.H., Li, X. & Karniadakis, G.E. Mesoscale modeling of phase transition dynamics of thermoresponsive polymers. Chemical Communications, 51(55):11038-11040, 2015.

2014

[1]	Tang, Y.H. & Karniadakis, G.E. Accelerating dissipative particle dynamics simulations on GPUs: Algorithms, numerics and applications. Computer Physics Communications, 185(11):2809-2822, 2014.
[2]	Li, X., Tang, Y.H., Liang, H. & Karniadakis, G.E. Large-scale dissipative particle dynamics simulations of self-assembled amphiphilic systems. Chemical Communications, 50(61):8306-8308, 2014.
[3]	Li, Z., Tang, Y.H., Lei, H., Caswell, B. & Karniadakis, G.E. Energy-conserving dissipative particle dynamics with temperature-dependent properties. Journal of Computational Physics, 265:113-127, 2014.