Accelerator Physics, USPAS Schedule
W1: Monday, June 4
9:00 Course Info: Lund
9:15 Lecture Organization: Lund and Hao
9:30 PS 01 Handout
9:30 Introduction: Lund 01.intro
12:00 Lunch
1:00 Multipole Field: Lund 02.mpole_fields; Magnets : Hao
3:00 Sources: Lund 03.injectors
4:00 Computer Lab 01: Overview: Wong 01_intro
5:00 Adjourn
W1: Tuesday, June 5
9:00 PS 01 Due, PS 02 Handout
9:00 Transverse Equations of Motion: Dipole Bending and Quadrupole Focusing: Lund 04.kin_eng 05.dipole_quad
Hill’s Equation: Orbit Stability, Phase-Amplitude Methods: Lund 06.tran_stab_phase_amp
12:00 Lunch
1:00 Linear Transverse Motion, Hamiltonian Perspective: Hao
3:00 Lecture Carry Over; PS 01 Recitation: Richard
4:00 Computer Lab 02: Intro to Elegant Code: Wong 02_intro_elegant
5:00 Adjourn
W1: Wednesday, June 6
9:00 PS 02 Due, PS 03 Handout
9:00 Hill’s Equation: Orbit Stability, Phase-Amplitude Methods, and Courant-Snyder Invariant: Lund 06.tran_stab_phase_amp
Courant-Snyder Invariant and Betatron Function: Lund 07.cs_inv_betatron
Equations of Motion: Acceleration, Bends, and Space-Charge: Lund 08.eqns_motion
12:00 Lunch
1:00 Perturbed Linear Transverse Motion: Hao
3:00 Lecture Carry Over; PS 02 Recitation: Richard
4:00 Computer Lab 03: Quadrupole Focusing Lattices, Phase-Advance, etc: Wong
5:00 Adjourn
W1: Thursday, June 7
9:00 PS 03 Due, PS 04 Handout
9:00 Equations of Motion: Acceleration, Bends, and Space-Charge: Lund 08.eqns_motion
Momentum Spread: Dispersive and Chromatic Effects: Lund 09.mom_spread
12:00 Lunch
1:00 Momentum Spread: Dispersive and Chromatic Effects: Lund 09.mom_spread
Perturbed Linear Transverse Motion: Hao
3:00 Lecture Carry Over; PS 03 Recitation: Richard
4:00 Computer Lab 04: Achromatic Bend and Fragment Separator: Wong
5:00 Adjourn
W1: Friday, June 8
9:00 PS 04 Due, PS 05 Handout
9:00 Transverse Resonances: Lund 10.tran_resonances
11:00 Chromaticity: 09.mom_spread
12:00 Lunch
1:00 Off-Momentum Orbit: Hao
2:00 Symplectic Structure of Particle Dynamics: Hao
3:00 Lecture Carry Over; PS 04 Recitation: Richard
4:00 Computer Lab 05: Chromaticity and Double Bend Achromat: Hao
5:00 Adjourn
W2: Monday, June 11
9:00 PS 05 Due, PS 06 Handout
9:00 Momentum Compaction: Lund 11.mom_comp
Acceleration and Normalized Emittance: Lund 12.accel_norm_emit
10:30 Synchrotron Radiation: Hao
12:00 Lunch
1:00 Longitudinal Dynamics: Lund 13.long_accel
3:00 Computer Lab 06: Normalized Transverse Emittance and Slip Factor
4:00 Lecture Carry Over; PS 05 Recitation: Richard and Wong
5:00 Adjourn
9:00 PS 06 Due, PS 07 Handout
9:00 Longitudinal Dynamics (continued) Lund: 13.long_accel
Acceleration in Ring (for reference): Lund 14.ring_accel
RF Bunching (for reference): Lund 15.rf_bunch
12:00 Lunch
1:00 Electron Storage Rings: Hao
3:00 Computer Lab 07:
Longitudinal Dynamics and Bunch Compression: Hao and Wong
4:00 Lecture Carry Over; PS 06 Recitation: Richard and Wong
5:00 Adjourn
W2: Wednesday, June 13
9:00 PS 07 Due, PS 08 Handout
9:00 RF Cavities: Lund 16.rf_cavities
11:00 Application: Synchrotron Light Sources: Hao
12:00 Lunch
1:00 Undulator Radiation: Hao
2:00 Solenoid Focusing Basics: Lund 17.solenoid_basic
3:00 Application: Free Electron Laser: Hao
4:00 Lecture Carry Over; PS 07 Recitation: Richard and Wong
5:00 Adjourn
W2: Thursday, June 14
9:00 PS 08 Due
9:00 Solenoid Focusing and Canonical Angular Momentum: Lund 18.solenoid
Space-Charge Effects: Lund 19.space_charge
12:00 Lunch
1:00 Space-Charge Effects (continued): Lund 19.space_charge
3:00 Final Exam Overview: Lund and Hao
4:30 PS 08 Recitation: Richard and Wong
5:00 Final Exam Handout
5:00 Adjourn
W2: Friday, June 15
9:00 Final Due
9:00 Beam Cooling: Hao
10:00 New Concepts of Accelerator and Applications: Hao
11:30 Comments on Final: Lund, Hao, Wong and Richard
12:00 End of Course