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Lecture Notes



Lecture Notes


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Topics covered in lectures in 2006 are listed below. In some cases, links are given to new lecture notes by student scribes. All scribed lecture notes are used with the permission of the student named in the file. The recommended reading refers to the lectures notes and exam solutions from previous years or to the books listed below. Lecture notes from previous years are also found in the study materials section.



Recommended Texts


Amazon logo Hughes, B. Random Walks and Random Environments. Vol. 1. Oxford, UK: Clarendon Press, 1996. ISBN: 0198537883.

Amazon logo Redner, S. A Guide to First Passage Processes. Cambridge, UK: Cambridge University Press, 2001. ISBN: 0521652480.

Amazon logo Risken, H. The Fokker-Planck Equation. 2nd ed. New York, NY: Springer-Verlag, 1989. ISBN: 0387504982.



Further Readings


Amazon logo Bouchaud, J. P., and M. Potters. Theory of Financial Risks. Cambridge, UK: Cambridge University Press, 2000. ISBN: 0521782325.

Amazon logo Crank, J. Mathematics of Diffusion. 2nd ed. Oxford, UK: Clarendon Press, 1975. ISBN: 0198533446.

Amazon logo Rudnick, J., and G. Gaspari. Elements of the Random Walk. Cambridge, UK: Cambridge University Press, 2004. ISBN: 0521828910.

Amazon logo Spitzer, F. Principles of the Random Walk. 2nd ed. New York, NY: Springer-Verlag, 2001. ISBN: 0387951547.


LEC #TOPICS2006 Lecture NOTES2006 READINGS
1

Overview

History (Pearson, Rayleigh, Einstein, Bachelier)

Normal vs. Anomalous Diffusion

Mechanisms for Anomalous Diffusion

2005 Lecture 1 (PDF)

Hughes

I. Normal Diffusion
I.A. Linear Diffusion
2

Moments, Cumulants, and Scaling


Markov Chain for the Position (in d Dimensions), Exact Solution by Fourier Transform, Moment and Cumulant Tensors, Additivity of Cumulants, "Square-root Scaling" of Normal Diffusion

2005 Lecture 2 (PDF)

Hughes

3

The Central Limit Theorem and the Diffusion Equation


Multi-dimensional CLT for Ssums of IID Random Vectors

Continuum Derivation Involving the Diffusion Equation

2005 Lecture 1 (PDF)

2005 Lecture 3 (PDF)

4

Asymptotic Shape of the Distribution


Berry-Esseen Theorem

Asymptotic Analysis Leading to Edgeworth Expansions, Governing Convergence to the CLT (in one Dimension), and more Generally Gram-Charlier Expansions for Random Walks

Width of the Central Region when Third and Fourth Moments Exist

2005 Lecture 3 (PDF)

2005 Lecture 4 (PDF)

Hughes

Feller

5

Globally Valid Asymptotics


Method of Steepest Descent (Saddle-Point Method) for Asymptotic Approximation of Integrals

Application to Random Walks

Example: Asymptotics of the Bernoulli Random Walk

2005 Lecture 6 (PDF)

2005 Lecture 7 (PDF)

Hughes

6

Power-law "Fat Tails"


Power-law Tails, Diverging Moments and Singular Characteristic Functions

Additivity of Tail Amplitudes

2005 Lecture 5 (PDF)

2005 Lecture 6 (PDF)

Bouchaud and Potters

7

Asymptotics with Fat Tails


Corrections to the CLT for Power-law Tails (but Finite Variance)

Parabolic Cylinder Functions and Dawson's Integral

A Numerical Example Showing Global Accuracy and Fast Convergence of the Asymptotic Approximation

(PDF) (Courtesy of Damian Burch. Used with permission.)

Numerical Example (PDF) (Courtesy of Chris H. Rycroft. Used with permission.)

2005 Lecture 5 (PDF)
8

From Random Walks to Diffusion


Examples of Random Walks Modeled by Diffusion Equations

  • Flagellar Bacteria

Run and Tumble Motion, Chemotaxis

  • Financial Time Series

Additive Versus Multiplicative Processes

(PDF) (Courtesy of Daniel Rudoy. Used with permission.)

2005 Lecture 10 (PDF)

Bouchaud and Potters

9

Discrete Versus Continuous Stochastic Processes


Corrections to the Diffusion Equation Approximating Discrete Random Walks with IID Steps

Fat Tails and Riesz Fractional Derivatives

Stochastic Differentials, Wiener Process

(PDF) (Courtesy of Kwai Hung Henry Lam. Used with permission.)

2005 Lecture 8 (PDF)

2005 Lecture 9 (PDF)

2005 Lecture 13 (PDF)

Risken

10

Weakly Non-identical Steps


Chapman-Kolmogorov Equation, Kramers-Moyall Expansion, Fokker-Planck Equation. Probability Flux

Modified Kramers-Moyall Cumulant Expansion for Identical Steps

2005 Lecture 8 (PDF)

2005 Lecture 9 (PDF)

2005 Lecture 13 (PDF)

Risken

I.B. Nonlinear Diffusion
11

Nonlinear Drift


Interacting Random Walkers, Concentration-dependent Drift

Nonlinear Waves in Traffic Flow, Characteristics, Shocks, Burgers' Equation

Surface Growth, Kardar-Parisi-Zhang Equation

(PDF) (Courtesy of Lou Odette. Used with permission.)
12

Nonlinear Diffusion


Cole-Hopf Transformation, General Solution of Burgers Equation

Concentration-dependent Diffusion, Chemical Potential. Rechargeable Batteries, Steric Effects

Problem set 3 solutions

I.C. First Passage and Exploration
13

Return Probability on a Lattice


Probability Generating Functions on the Integers, First Passage and Return on a Lattice, Polya's Theorem

(PDF) (Courtesy of Chris H. Rycroft. Used with permission.)

2005 Lecture 17 (PDF)

2005 Lecture 18 (PDF)

Hughes Redne

14

The Arcsine Distribution


Reflection Principle and Path Counting for Lattice Random Walks, Derivation of the Discrete Arcsine Distribution for the Fraction of Time Spent on One Side of the Origin, Continuum Limit

(PDF) (Courtesy of Chris H. Rycroft. Used with permission.)Feller
15

First Passage in the Continuum Limit


General Formulation in One Dimension

Smirnov Density

Minimum First Passage Time of a Set of N Random Walkers

2005 Lecture 16 (PDF)

Exam 2 (problem 2)

16

First Passage in Arbitrary Geometries


General Formulation in Higher Dimensions, Moments of First Passage Time, Eventual Hitting Probability, Electrostatic Analogy for Diffusion, First Passage to a Sphere

2005 Lecture 18 (PDF)

Redner

Risken

17

Conformal Invariance


Conformal Transformations (Analytic Functions of the Plane, Stereographic Projection from the Plane to a Sphere,...), Conformally Invariant Transport Processes (Simple Diffusion, Advection-diffusion in a Potential Flow,...), Conformal Invariance of the Hitting Probability

(PDF) (Courtesy of Yee Lok Wong. Used with permission.)

2003 Lecture 23 (PDF)

An Article

Redner

18

Hitting Probabilities in Two Dimensions


Potential Theory using Complex Analysis, Mobius Transformations, First Passage to a Line

2003 Lecture 23 (PDF)

Redner

19

Applications of Conformal Mapping


First Passage to a Circle, Wedge/Corner, Parabola. Continuous Laplacian Growth, Polubarinova-Galin Equation, Saffman-Taylor Fingers, Finite-time Singularities

2003 Lecture 23 (PDF)

2003 Lecture 24 (PDF)

20

Diffusion-limited Aggregation


Harmonic Measure, Hastings-Levitov Algorithm, Comparison of Discrete and Continuous Dynamics

Overview of Mechanisms for Anomalous Diffusion

Non-identical Steps

2003 Lectures 25 (PDF)

2003 Lecture 14 (PDF)

2003 Lecture 15 (PDF)

A Review Article

II. Anomalous Diffusion
II.A. Breakdown of the CLT
21

Polymer Models: Persistence and Self-avoidance


Random Walk to Model Entropic Effects in Polymers, Restoring Force for Stretching; Persistent Random Walk to Model Bond-bending Energetic Effects, Green-Kubo Relation, Persistence Length, Telegrapher's Equation; Self-avoiding Walk to Model Steric Effects, Fisher-Flory Estimate of the Scaling Exponent

2005 Lectures 19 (PDF)

2005 Lecture 20 (PDF)

2003 Lecture 9 (PDF)

2003 Lecture 10 (PDF)

2003 Lecture 11 (PDF)

22

Levy Flights


Superdiffusion and Limiting Levy Distributions for Steps with Infinite Variance, Examples, Size of the Largest Step, Frechet Distribution

2005 Lecture 22 (PDF)

2003 Lecture 12 (PDF)

2003 Lecture 13 (PDF)

Hughes

II.B. Continuous-Time Random Walks
23

Continuous-time Random Walks


Laplace Transform. Renewal Theory

Montroll-Weiss Formulation of CTRW

DNA Gel Electrophoresis

(PDF) (Courtesy of Michael Vahey. Used with permission.)

2005 Lecture 23 (PDF)

2003 Lecture 15 (PDF)

2003 Lecture 16 (PDF)

2003 Lecture 17 (PDF)

24

Fractional Diffusion Equations


CLT for CTRW

Infinite Man Waiting Time, Mittag-Leffler Decay of Fourier Modes, Time-delayed Flux, Fractional Diffusion Equation

2005 Lecture 24 (PDF)

2003 Lecture 18 (PDF)

25

Non-separable Continuous-time Random Walks


"Phase Diagram" for Anomalous Diffusion: Large Steps Versus Long Waiting Times

Application to Flagellar Bacteria. Hughes' General Formulation of CTRW with Motion between "turning points"

2005 Lecture 25 (PDF)

2005 Lecture 26 (PDF)

Hughes

26

Leapers and Creepers


Hughes' Leaper and Creeper Models

Leaper Example: Polymer Surface Adsorption Sites and Cross-sections of a Random Walk

Creeper Examples: Levy Walks, Bacterial Motion, Turbulent Dispersion

2005 Lecture 26 (PDF)

Hughes


 








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