Lorena A. Barba group


High-productivity, high-performance workflow for virus-scale electrostatic simulations with Bempp-Exafmm

Preprint: arXiv:2103.01048, 1 Mar 2021. Submitted: 22 Mar. 2021. Abstract Biomolecular electrostatics is key in protein function and the chemical processes affecting it.Implicit-solvent models expressed by the Poisson-Boltzmann (PB) equation can provide insights with less computational power than full atomistic models, making large-system studies—at the scale of viruses, for example —accessible to more researchers. This paper... Continue »

Computational nanoplasmonics in the quasistatic limit for biosensing applications

Preprint: arXiv 1812.10722 Dec. 31, 2018. Submitted: Dec. 31, 2018; Jan. 20, 2019; Mar. 20, 2019. Accepted: Nov. 1. Published: Dec. 16, 2019. DOI: 10.1103/PhysRevE.100.063305 Abstract This work uses the long-wavelength limit to compute LSPR response of biosensors, expanding the open-source PyGBe code to compute the extinction cross-section of metallic nanoparticles in the presence of any target... Continue »