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Coupled Mathematical Models for Physical and Biological Nanoscale Systems and Their Applications

Banff International Research Station, Banff, Canada, 28 August - 2 September 2016

  • Conference proceedings
  • © 2018

Overview

Editors:
  1. Luis L. Bonilla

    1. Department of Materials Science and Engineering and G. Millan Institute, Universidad Carlos III de Madrid, Leganés, Spain

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  2. Efthimios Kaxiras

    1. Lyman Laboratory of Physics, Department of Physics, Harvard University, Cambridge, USA

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  3. Roderick Melnik

    1. The MS2 Discovery Interdisciplinary Research Institute, Wilfrid Laurier University, Waterloo, Canada

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Part of the book series: Springer Proceedings in Mathematics & Statistics (PROMS, volume 232)

Included in the following conference series:

Conference proceedings info: BIRS-16w5069 2016.

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Table of contents (15 papers)

  1. Front Matter

    Pages i-x
    Download chapter PDF

  2. Charge and Spin Transport in Low-Dimensional Structures

    1. Front Matter

      Pages 1-1
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    2. Nonlinear Quantum Mechanics

      • Björn Birnir
      Pages 3-33

    3. Chaotic Current Self-oscillations in Doped, Weakly Coupled Semiconductor Superlattices for True Random Number Generation

      • Yaohui Zhang, Yaara Aviad, Holger T. Grahn
      Pages 35-50

    4. Transport Out of Locally Broken Detailed Balance

      • Rafael Sánchez
      Pages 51-64

    5. Non-perturbative Approaches in Nanoscience and Corrections to Finite-Size Scaling

      • J. Kaupužs, R. V. N. Melnik
      Pages 65-73

    6. Continuum Model for Coupled Acousto-Optical Phonons in Piezoelectric Materials

      • Morten Willatzen, Zhong Lin Wang
      Pages 75-93

  3. Modeling Biological Phenomena from Nano- to Macro-scales

    1. Front Matter

      Pages 95-95
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    2. Stochastic Models of Tumor Induced Angiogenesis

      • Luis L. Bonilla, M. Carretero, F. Terragni
      Pages 97-116

    3. Biofilm Mechanics and Patterns

      • A. Carpio, E. Cebrián, D. R. Espeso, P. Vidal
      Pages 117-135

    4. Modelling the Unfolding Pathway of Biomolecules: Theoretical Approach and Experimental Prospect

      • Carlos A. Plata, Antonio Prados
      Pages 137-151

    5. The Geometry of Most Probable Trajectories in Noise-Driven Dynamical Systems

      • John C. Neu, Akhil Ghanta, Stephen W. Teitsworth
      Pages 153-167

  4. Mathematics for 2D Materials and Properties of Confined Nanostructures

    1. Front Matter

      Pages 169-169
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    2. Classical Density-Functional Theory Studies of Fluid Adsorption on Nanopatterned Planar Surfaces

      • Peter Yatsyshin, Serafim Kalliadasis
      Pages 171-185

    3. Modeling Metastability in CdTe Solar Cells Due to Cu Migration

      • Da Guo, Daniel Brinkman, Abdul R. Shaik, I. Sankin, D. Krasikov, Christian Ringhofer et al.
      Pages 187-213

    4. A Multiscale Molecular Dynamics and Coupling with Nonlinear Finite Element Method

      • Shingo Urata, Shaofan Li
      Pages 215-244

    5. Modeling Electronic Properties of Twisted 2D Atomic Heterostructures

      • Stephen Carr, Daniel Massatt, Shiang Fang, Paul Cazeaux, Mitchell Luskin, Efthimios Kaxiras
      Pages 245-265

    6. Molecular Dynamics and Related Computational Methods with Applications to Drug Discovery

      • Jordane Preto, Francesco Gentile, Philip Winter, Cassandra Churchill, Sara Ibrahim Omar, Jack A. Tuszynski
      Pages 267-285

    7. Macroscopic Models for the Bioelectronic Interface of Engineered Artificial Membranes

      • William Hoiles, Vikram Krishnamurthy
      Pages 287-314
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  1. Coupled Mathematical Models for Physical and Biological Nanoscale Systems and Their Applications

Keywords

About this book

This volume gathers selected contributions from the participants of the Banff International Research Station (BIRS) workshop Coupled Mathematical Models for Physical and Biological Nanoscale Systems and their Applications, who explore various aspects of the analysis, modeling and applications of nanoscale systems, with a particular focus on low dimensional nanostructures and coupled mathematical models for their description.

Due to the vastness, novelty and complexity of the interfaces between mathematical modeling and nanoscience and nanotechnology, many important areas in these disciplines remain largely unexplored. In their efforts to move forward, multidisciplinary research communities have come to a clear understanding that, along with experimental techniques, mathematical modeling and analysis have become crucial to the study, development and application of systems at the nanoscale.

The conference, held at BIRS in autumn 2016, brought together experts from three different communities working in fields where coupled mathematical models for nanoscale and biosystems are especially relevant: mathematicians, physicists (both theorists and experimentalists), and computational scientists, including those dealing with biological nanostructures. Its objectives: summarize the state-of-the-art; identify and prioritize critical problems of major importance that require solutions; analyze existing methodologies; and explore promising approaches to addressing the challenges identified.

The contributions offer up-to-date introductions to a range of topics in nano and biosystems, identify important challenges, assess current methodologies and explore promising approaches. As such, this book will benefit researchers in applied mathematics, as well as physicists and biologists interested in coupled mathematical models and their analysis for physical and biological nanoscale systems that concern applications in biotechnology and medicine, quantum information processing and optoelectronics.

Editors and Affiliations

  • Department of Materials Science and Engineering and G. Millan Institute, Universidad Carlos III de Madrid, Leganés, Spain

    Luis L. Bonilla

  • Lyman Laboratory of Physics, Department of Physics, Harvard University, Cambridge, USA

    Efthimios Kaxiras

  • The MS2 Discovery Interdisciplinary Research Institute, Wilfrid Laurier University, Waterloo, Canada

    Roderick Melnik

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