 
Abstract/Syllabus:

Minervini, Joseph, and Yukikazu Iwasa, 22.68J Superconducting Magnets, Spring 2003. (Massachusetts Institute of Technology: MIT OpenCourseWare), http://ocw.mit.edu (Accessed 07 Jul, 2010). License: Creative Commons BYNCSA
Superconducting Magnets
Spring 2003
The Muon g2 Experiment uses the Alternating Gradient Syncrhotron (AGS) to deliver a custom muon beam into the world's largest superconducting magnet  the "muon storage ring"  pictured above. (Image courtesy of the U.S. Departement of Energy's Brookhaven National Laboratory.)
Course Highlights
This course includes homework assignments and extensive lecture notes.
Course Description
This course focuses on one important engineering application of superconductors  the generation of largescale and intense magnetic fields. It includes a review of electromagnetic theory; detailed treatment of magnet design and operational issues, including "usable" superconductors, field and stress analyses, magnet instabilities, ac losses and mechanical disturbances, quench and protection, experimental techniques, and cryogenics. The course also examines new hightemperature superconductors for magnets, as well as design and operational issues at high temperatures.
Syllabus
Course Decription
This course focuses on one important engineering application of superconductors  the generation of largescale and intense magnetic fields. It includes a review of electromagnetic theory; detailed treatment of magnet design and operational issues, including "usable" superconductors, field and stress analyses, magnet instabilities, ac losses and mechanical disturbances, quench and protection, experimental techniques, and cryogenics. The course also examines new hightemperature superconductors for magnets, as well as design and operational issues at high temperatures.
Workload
Textbook
Iwasa, Y. Case Studies in Superconducting Magnets: Design and Operational Issues. New York: Plenum, 1994. ISBN: 9780306448812.
Topics Covered

Introduction

Electromagnetic Fields

Static Fields

Timevarying fields

Magnets and Fields

Magnetic Forces and Stresses

Cryogenics

Operation at 4.2K, 1.8K, 2077K, Cryocooler

Leads, Experimental Techniques

Conductors

Magnetic Instabilities

Bean's Critical State Model, Magnetization

Flux Jumping, Multifilaments, HTS Windings

Stability

AC and Other Disturbances

Protection and HTS Magnets

Protection

HTS Magnets
Calendar
SES #

TOPICS

KEY DATES

1

Introduction
Superconductivity and Applications
Prospects and Challenges

Homework 1 due

2

Electromagnetic Fields
Static Fields
Timevarying Fields

Homework 2 due

3

Magnets and Fields
Law of Biot and Savart, Solenoids, Hybrid
Dipoles, Quadrupoles, Toroid

Homework 3 due

4

Magnetic Forces and Stresses
Forces in Magnets
Stresses, Structural Design

Homework 4 due

5

Cryogenics
Operation at 4.2K, 1.8K, 2077K, Cryocooler
Leads, Experimental Techniques

Homework 5 due

6

Quiz 1 (Open Book): Covers Lectures 15


7

Conductors
NbTi and A15 Conductors
CableinConduit Conductors (CICC), HTS


8

Magnetic Instabilities
Bean's Critical State Model, Magnetization
Flux Jumping, Multifilaments, HTS Windings

Homework 6 due

9

Stability
Cryostability, Dynamic Stability
The MPZ Concept, CICC

Homework 7 due

10

AC and Other Disturbances
AC Losses
Splice and Mechanical Losses

Homework 8 due

11

Protection and HTS Magnets
Protection
HTS Magnets

Homework 9 due

12

Quiz 2 (Open Book): Covers primarily Lectures 610






Further Reading:

Readings
Textbook
Iwasa, Y. Case Studies in Superconducting Magnets. New York: Plenum, 1994. ISBN: 9780306448812.
Recommended
Wilson, M. N. Superconducting Magnets. New York: Oxford University Press, 1987. ISBN: 9780198548102.
Thome, R. J., and J. M. Tarrh. MHD and Fusion Magnets: Field and Force Design Concepts. Hoboken: Wiley, 1982. ISBN: 9780471093176.
Osamura, K., ed. Composite Superconductors. New York: Marcel Dekker, 1993. ISBN: 9780824791179.
Montgomery, D. B. Solenoid Magnet Design: The Magnetic and Mechanical Aspects of Resistive and Superconducting Systems. Melbourne: Krieger, 1980. ISBN: 9780882759937.



Rating:
0 user(s) have rated this courseware
Views:
4950




