Publications

CSC research acknowledged in publications and presentations.

Please remember to continue to acknowledge the use of CSC resources with

 

Use was made of computational facilities purchased with funds from the National Science Foundation (CNS-1725797) and administered by the Center for Scientific Computing (CSC). The CSC is supported by the California NanoSystems Institute and the Materials Research Science and Engineering Center (MRSEC; NSF DMR 2308708) at UC Santa Barbara.

Selected Publications

2021

Quantitative Comparison of Field-Update Algorithms for Polymer SCFT and FTS
Vigil, D. L., Delaney, K. T., & Fredrickson, G. H. (2021). Quantitative Comparison of Field-Update Algorithms for Polymer SCFT and FTS. Macromolecules, 54, 9804\textendash9814.
Radiative MHD simulations of photon bubbles in radiation-supported magnetized atmospheres of neutron stars with isotropic Thomson scattering
Blaes, O. (2021). Radiative MHD simulations of photon bubbles in radiation-supported magnetized atmospheres of neutron stars with isotropic Thomson scattering. Monthly Notices Of The Royal Astronomical Society, 508, 617\textendash636.
Redox-Active Polymeric Ionic Liquids with Pendant N-Substituted Phenothiazine
Oh, S., Nikolaev, A., Tagami, K., Tran, T., Lee, D., Mukherjee, S., et al. (2021). Redox-Active Polymeric Ionic Liquids with Pendant N-Substituted Phenothiazine. Acs Applied Materials \& Interfaces, 13, 5319\textendash5326. https://doi.org/10.1021/acsami.0c20462
Redox-mediated carbon monoxide release from a manganese carbonyl\textemdashimplications for physiological CO delivery by CO releasing moieties
Barrett, J. A., Li, Z., Garcia, J., Wein, E., Zheng, D., Hunt, C., et al. (2021). Redox-mediated carbon monoxide release from a manganese carbonyl\textemdashimplications for physiological CO delivery by CO releasing moieties. Royal Society Open Science, 8, 211022.
The Role of Ionic Interactions on Structure and Transport in Conjugated Polymeric Mixed Conductors
Hanemann-Rawlings, D. T. (2021). The Role of Ionic Interactions on Structure and Transport in Conjugated Polymeric Mixed Conductors.
Role of local chemical fluctuations in the melting of medium entropy alloy CoCrNi
Jian, W. -R., Wang, L., Bi, W., Xu, S., & Beyerlein, I. J. (2021). Role of local chemical fluctuations in the melting of medium entropy alloy CoCrNi. Applied Physics Letters, 119, 121904.
Saga: Sparse Adversarial Attack on EEG-Based Brain Computer Interface
Feng, B., Wang, Y., & Ding, Y. (2021). Saga: Sparse Adversarial Attack on EEG-Based Brain Computer Interface. Presented at the. IEEE. https://doi.org/10.1109/ICASSP39728.2021.9413507
Scaling All-Digital Millimeter-Wave Massive Multiuser MIMO
Abdelghany, M. A. (2021). Scaling All-Digital Millimeter-Wave Massive Multiuser MIMO.
Scrambling and Lyapunov exponent in spatially extended systems
Keselman, A., Nie, L., & Berg, E. (2021). Scrambling and Lyapunov exponent in spatially extended systems. Physical Review B, 103, L121111. https://doi.org/10.1103/PhysRevB.103.L121111
Self-consistent field theory study of polymer-mediated colloidal interactions in solution: Depletion effects and induced forces
Li, W., Delaney, K. T., & Fredrickson, G. H. (2021). Self-consistent field theory study of polymer-mediated colloidal interactions in solution: Depletion effects and induced forces. The Journal Of Chemical Physics, 155, 154903.
Self-consistent field theory study of polymer-mediated colloidal interactions in solution: Depletion effects and induced forces
Li, W., Delaney, K. T., & Fredrickson, G. H. (2021). Self-consistent field theory study of polymer-mediated colloidal interactions in solution: Depletion effects and induced forces. The Journal Of Chemical Physics, 155, 154903.
Six new transformation pathways connecting simple crystal structures and common intermetallic crystal structures
Kolli, S. K., Natarajan, A. R., & Van der Ven, A. (2021). Six new transformation pathways connecting simple crystal structures and common intermetallic crystal structures. Acta Materialia, 221, 117429.
Spatial Oversampling for Quantized LoS MIMO
Sezer, A. D., Madhow, U., & Rodwell, M. J. W. (2021). Spatial Oversampling for Quantized LoS MIMO. Presented at the. IEEE.
Statistical Mechanics Model for Clifford Random Tensor Networks and Monitored Quantum Circuits
Li, Y., Vasseur, R., Fisher, M., & Ludwig, A. W. W. (2021). Statistical Mechanics Model for Clifford Random Tensor Networks and Monitored Quantum Circuits. Arxiv Preprint Arxiv:2110.02988.
Statistical mechanics of quantum error correcting codes
Li, Y., & Fisher, M. P. A. (2021). Statistical mechanics of quantum error correcting codes. Physical Review B, 103, 104306. https://doi.org/10.1103/PhysRevB.103.104306
Stochastic Low Frequency Variability in 3-Dimensional Radiation Hydrodynamical Models of Massive Star Envelopes
Schultz, W. C., Bildsten, L., & Jiang, Y. -F. (2021). Stochastic Low Frequency Variability in 3-Dimensional Radiation Hydrodynamical Models of Massive Star Envelopes. Arxiv Preprint Arxiv:2110.13944.
Surprising stability of polar (001) surfaces of the Mott insulator GdTiO3
Krishnaswamy, K., Janotti, A., Bjaalie, L., & Van de Walle, C. G. (2021). Surprising stability of polar (001) surfaces of the Mott insulator GdTiO3. Journal Of Vacuum Science \& Technology A: Vacuum, Surfaces, And Films, 39, 063220.
SYK Meets Non-Hermiticity I: Emergent Replica Conformal Symmetry
Zhang, P., Jian, S. -K., Liu, C., & Chen, X. (2021). SYK Meets Non-Hermiticity I: Emergent Replica Conformal Symmetry. Arxiv Preprint Arxiv:2104.04088.
Topological superconductivity in nanowires proximate to a diffusive superconductor\textendashmagnetic-insulator bilayer
Khindanov, A., Alicea, J., Lee, P., Cole, W. S., & Antipov, A. E. (2021). Topological superconductivity in nanowires proximate to a diffusive superconductor\textendashmagnetic-insulator bilayer. Physical Review B, 103, 134506. https://doi.org/10.1103/PhysRevB.103.134506
Tuning magnetic antiskyrmion stability in tetragonal inverse Heusler alloys
Kitchaev, D. A., & Van der Ven, A. (2021). Tuning magnetic antiskyrmion stability in tetragonal inverse Heusler alloys. Physical Review Materials, 5, 124408.