Thursday Week 2 Lecture

1 Thursday Week 2 Lecture Jeff Eldred Review

2 Overview Lagrange, Hamilton, Poisson, Mechanics Accelerator Physics Electromagnetism Relativity Synchrotron Radiation

3 Lagrange, Hamilton, Poisson Mechanics (see Lectures 1-5)

Lagrangian Mechanics The Lagrangian is defined by: Lagrange’s Equations: Every independent set of phase-space coordinate has its own Lagrange equation.

Electromagnetic Lagrangian The Electromagnetic Lagrangian is: With the conjugate momentum:

Hamiltonian Mechanics The conjugate momentum is defined: The Hamiltonian is defined by: When there is no explicit time dependence: The equations of motion are given by:

Poisson Brackets Poisson Brackets are defined: Where pk is the conjugate momentum. With Poisson Brackets we can consider the time dependence of any function of the coordinates: A set of coordinates is canonical iff:

Oscillator Examples Driven Harmonic Oscillator without Damping: Harmonic Oscillator with Damping:

Generating Functions q, Q independent q, P independent q, Q independent p, P independent

Finding Action-Angle Coordinates Method 1 (Position - Momentum): Method 2 (Time - Energy):

11 Accelerator Physics (see Lectures 6-10)

Longitudinal Dynamics Longitudinal Equations of Motion: Synchrotron Motion:

Linear Betatron Motion Betatron Motion: Betatron Tune, Phase-Advance: Courant-Snyder Parameters:

Nonlinear Resonance Accelerator Hamiltonian: Then take Fourier series near a resonance. Sextupole example:

15 Electromagnetism (see Lecture 13-17, Suppl)

Vector Identities Dot Product: Vector Product: Gauss Theorem: Stokes Theorem:

Maxwell’s Equations

Poynting Vector

Plane Waves

Eikonal Approximation General E&M Wave: Eikonal Approximation: Longitudinal-Transverse Independent: Cylindrically Symmetric:

21 Relativity (See Lecture 15, 18)

Time & Length Dilation

Lorentz Coordinate Transformation Relativistic Energy & Momentum

Transformation of E & B fields

Retarded Time Retarded-Time Potentials:

Fields from a Point Charge Lienard-Wiechert Potentials:

27 Synchrotron Radiation (see Lecture 20, 24)

Radiation Geometry

Synchrotron Radiation Fields

Radiated Power

Radiation Spectrum If ψ= 0:

Thursday Week 2 Lecture

Thursday Week 2 Lecture

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