Applications of Monte Carlo Method in Science and Engineering
eBook - PDF

Applications of Monte Carlo Method in Science and Engineering

  1. 966 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Applications of Monte Carlo Method in Science and Engineering

About this book

In this book, Applications of Monte Carlo Method in Science and Engineering, we further expose the broad range of applications of Monte Carlo simulation in the fields of Quantum Physics, Statistical Physics, Reliability, Medical Physics, Polycrystalline Materials, Ising Model, Chemistry, Agriculture, Food Processing, X-ray Imaging, Electron Dynamics in Doped Semiconductors, Metallurgy, Remote Sensing and much more diverse topics. The book chapters included in this volume clearly reflect the current scientific importance of Monte Carlo techniques in various fields of research.

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Yes, you can access Applications of Monte Carlo Method in Science and Engineering by Shaul Mordechai in PDF and/or ePUB format, as well as other popular books in Computer Science & Computer Science General. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Applications of Monte Carlo Method in Science and Engineering
  2. Contents
  3. Preface
  4. Chapter 1 Monte Carlo Simulations in NDT
  5. Chapter 2 Application of Monte Carlo Simulation in Optical Tweezers
  6. Chapter 3 Enabling Grids for GATE Monte-Carlo Radiation Therapy Simulations with the GATE-Lab
  7. Chapter 4 Monte Carlo Simulation for Ion Implantation Profiles, Amorphous Layer Thickness Formed by the Ion Implantation, and Database Based on Pearson Function
  8. Chapter 5 Application of Monte Carlo Simulation in Industrial Microbiological Exposure Assessment
  9. Chapter 6 Monte Carlo Simulation of Radiative Transfer in Atmospheric Environments for Problems Arising from Remote Sensing Measurements
  10. Chapter 7 Monte Carlo Simulation of Pile-up Effect in Gamma Spectroscopy
  11. Chapter 8 Monte Carlo Simulations of Microchannel Plate–Based, Time-Gated X-ray Imagers
  12. Chapter 9 Many-particle Monte Carlo Approach to Electron Transport
  13. Chapter 10 Monte-Carlo Simulation in Electron Microscopy and Spectroscopy
  14. Chapter 11 Monte Carlo Simulation of SEM and SAM Images
  15. Chapter 12 Monte Carlo Simulation of Insulating Gas Avalanche Development
  16. Chapter 13 Monte Carlo Simulation of Electron Dynamics in Doped Semiconductors Driven by Electric Fields: Harmonic Generation, Hot-Carrier Noise and Spin Relaxation
  17. Chapter 14 A Pearson Effective Potential for Monte-Carlo Simulation of Quantum Confinement Effects in nMOSFETs
  18. Chapter 15 Monte Carlo Device Simulations
  19. Chapter 16 Wang-Landau Algorithm and its Implementation for the Determination of Joint Density of States in Continuous Spin Models
  20. Chapter 17 Characterizing Molecular Rotations using Monte Carlo Simulations
  21. Chapter 18 Finite-time Scaling and its Applications to Continuous Phase Transitions
  22. Chapter 19 Using Monte Carlo Method to Study Magnetic Properties of Frozen Ferrofluid
  23. Chapter 20 Monte Carlo Studies of Magnetic Nanoparticles
  24. Chapter 21 Monte Carlo Simulation for Magnetic Domain Structure and Hysteresis Properties
  25. Chapter 22 Monte Carlo Simulations of Grain Growth in Polycrystalline Materials Using Potts Model
  26. Chapter 23 Monte Carlo Simulations of Grain Growth in Metals
  27. Chapter 24 Monte Carlo Simulations on Defects in Hard-Sphere Crystals Under Gravity
  28. Chapter 25 Atomistic Monte Carlo Simulations in Steelmaking: High Temperature Carburization and Decarburization of Molten Steel
  29. Chapter 26 GCMC Simulations of Gas Adsorption in Carbon Pore Structures
  30. Chapter 27 Effect of the Repulsive Interactions on the Nucleation and Island Growth: Kinetic Monte Carlo Simulations
  31. Chapter 28 Monte Carlo Methodology for Grand Canonical Simulations of Vacancies at Crystalline Defects
  32. Chapter 29 Frequency-Dependent Monte Carlo Simulations of Phonon Transport in Nanostructures
  33. Chapter 30 Performance Analysis of Adaptive GPS Signal Detection in Urban Interference Environment using the Monte Carlo Approach
  34. Chapter 31 Practical Monte Carlo Based Reliability Analysis and Design Methods for Geotechnical Problems
  35. Chapter 32 A Monte Carlo Framework to Simulate Multicomponent Droplet Growth by Stochastic Coalescence
  36. Chapter 33 Monte Carlo Simulation of Room Temperature Ballistic Nanodevices
  37. Chapter 34 Estimation of Optical Properties in Postharvest and Processing Technology
  38. Chapter 35 MATLAB Programming of Polymerization Processes using Monte Carlo Techniques
  39. Chapter 36 Monte Carlo Simulations in Solar Radio Astronomy
  40. Chapter 37 Using Monte Carlo Simulation for Prediction of Tool Life
  41. Chapter 38 Loss of Load Expectation Assessment in Electricity Markets using Monte Carlo Simulation and Neuro-Fuzzy Systems
  42. Chapter 39 Automating First- and Second-order Monte Carlo Simulations for Markov Models in TreeAge Pro
  43. Chapter 40 Monte Carlo Simulations of Adsorbed Molecules on Ionic Surfaces