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Daniel Ladiges

Daniel Ladiges
Research Scientist
Fax: +1 510 486 6900

I am a research scientist in the Center for Computational Sciences and Engineering (CCSE) in the Computational Research Division of the Computing Sciences Directorate at the Lawrence Berkeley National Laboratory.

Research Interests

As part of my work in the Multiscale Modeling and Stochastic Systems (MuMMS) team, I am currently developing codes for the simulation of particle laden, fluctuating, incompressible flows. This will provide a platform for the study of complex fluids with novel rheological properties. I am also studying the use of compressible fluctuating hydrodynamic schemes for the modeling of gas flows through effusive membranes.

Journal Articles

Daniel R. Ladiges, Sean P. Carney, Andrew Nonaka, Katherine Klymko, Guy C. Moore, Alejandro L. Garcia, Sachin R. Natesh, Aleksandar Donev, John B. Bell, "A Discrete Ion Stochastic Continuum Overdamped Solvent Algorithm for Modeling Electrolytes", Submitted to Journal of Chemical Physics, July 7, 2020,

Nicholas Z. Liu, Daniel R. Ladiges, Jason Nassios, John E. Sader, "Acoustic flows in a slightly rarefied gas", Physical Review Fluids, February 4, 2020, 5:043401,

Yong Shi, Daniel R. Ladiges, John E. Sader, "Origin of spurious oscillations in lattice Boltzmann simulations of oscillatory noncontinuum gas flows", Physical Review E, November 25, 2019, 100,

D. R. Ladiges, A. J. Nonaka, J. B. Bell, A. L. Garcia, "On the Suppression and Distortion of Non-Equilibrium Fluctuations by Transpiration", Physics of Fluids, August 10, 2019,

Daniel R. Ladiges, John E. Sader, "Variational method enabling simplified solutions to the linearized Boltzmann equation for oscillatory gas flows", Physical Review Fluids, May 16, 2018, 3:053401,

Daniel R. Ladiges, John E. Sader, "Frequency-domain deviational Monte Carlo method for linear oscillatory gas flows", Physics of Fluids, October 9, 2015, 27:102002,

Daniel R. Ladiges, John E. Sader, "Frequency-domain Monte Carlo method for linear oscillatory gas flows", Journal of Computational Physics, March 1, 2015, 284:351,