EPJ B - Cell dynamics simulations: a fast way to profile block copolymers
- Details
- Published on 10 August 2012
Cell Dynamics Simulation (CDS) is a fast and efficient method for the simulation of kinetic processes in large-scale phase separation systems.
We review the application of this method to block copolymer systems and illustrate its use by examining a set of physical phenomena occurring in these systems. In spite of the simplicity of the model, such applications of CDS demonstrate that it is capable of accurately describing complex phenomena and is, therefore, a complementary method which can serve as a precursor to slower, more elaborate techniques.
Large Scale Simulation of block copolymers with cell dynamics M. Pinna and A.V. Zvelindovsky, Eur. Phys. J. B (2012) 85: 210, DOI: 10.1140/epjb/e2012-20968-6
Open calls for papers
-
EPJ A Topical Issue: First joint gravitational wave and electromagnetic observations: Implications for nuclear and particle physics
-
EPJ A Topical Issue: Heavy and Super-Heavy Nuclei and Elements: Production and Properties
-
EPJ A Topical Issue: Light clusters in nuclei and nuclear matter: Nuclear structure and decay, heavy ion collisions, and astrophysics
-
EPJ A Topical Issue: The QCD Phase Diagram in Strong Magnetic Fields
-
EPJ B Topical Issue: Extreme Value Statistics and Search in Biology: Theory and Simulations
-
EPJ B Topical Issue: Evolutionary Game Theory
-
EPJ B Topical Issue: Recent progress and emerging trends in Molecular Dynamics
-
EPJ D Topical Issue: Atoms and Molecules in a Confined Environment
-
EPJ D Topical Issue: Low Temperature Plasmas: Processes, Diagnostics and Applications
-
EPJ D Topical Issue: Quantum Aspects of Attoscience
-
EPJ D Topical Issue: Spectroscopy of biomolecular ions in vacuo
-
EPJ D Topical Issue: “Advances in Physics of Ionized Gases and Spectroscopy of Isolated Complex Systems: from Biomolecules to Space Particles" (2020)
-
EPJ E Special Issue: Diffusion and Convection in Nature
-
EPJ E Topical Issue: Physics and Geometry of Flexible Plates and Shells
-
EPJ E Topical Issue: Advances in Computational Methods for Biological Physics
-
EPJ E Topical Issue: Disordered, non-equilibrium systems: From supercooled liquids to amorphous solids
-
EPJ E Topical Issue: Physics of phase separation in cell biophysics: From non-equilibrium droplets to reaction-diffusion systems
-
EPJ E Topical Issue: Tissue Mechanics
-
EPJ N Topical Issue: Liquid-gas and liquid-vapour flows: theory, simulation and experiments
-
EPJ Plus Focus Point Issue: Breakthrough optics- and complex systems-based technologies of modulation of drainage and clearing functions of the brain
-
EPJ Quantum Technology: Special Issue on Quantum Industry
-
EPJ Quantum Technology: Special Issue on Quantum Metrology & Quantum Enhanced Measurement
-
EPJ ST Special Issue: Transport properties of non-Newtonian nanofluids and applications
-
EPJ ST Special Issue: Chaotic variable-order fractional neural networks
-
EPJ ST Special Issue: Circuit Application of Chaotic Systems: Modeling, Dynamical Analysis and Control
-
EPJ ST Special Issue: Complex Bio Rhythms
-
EPJ ST Special Issue: Intense laser-matter interaction in atoms, finite and condensed systems
-
EPJ ST Special Issue: Modeling, Machine Learning and Astronomy
-
EPJ ST Special Issue: Non-equilibrium phase transitions in heterogeneous systems: biophysical aspects
-
EPJ ST Special Issue: Strong Correlations in Dense Matter Physics
-
EPJ ST Special Issue: The Accelerating Universe – Evidence and Theories
-
EPJ ST Special Issue: Tipping in Complex Systems: Theory, Methods & Applications
-
EPJ Techniques and Instrumentation: Instrumentation and Control of Large Helium Cryogenic Systems
-
EPJ Techniques and Instumentation: Diagnostics for electric propulsion systems