Preamble: This semester I will be trying something new. Instead of teaching this course in a traditional lecture/problem set/exam format, I will be incorporating elements from a pedagogy known as Scenario-‐Based Learning. In this regard the students will be empowered to participate in the class, with each class discussion being led by one student (no .ppt!). The overarching theme of the course will be for the students to propose a high power microwave system design for a particular application or mission (this will become more apparent after reading Chapter 2). The students will be asked to submit a one-‐page description of their project by 09 March 2011. Students will present their reports on 02 and 04 May 2011. Students will then deliver a written final project report 06 May 2011 (limited to 10 pages, 10 point font, double-‐sided), accounting for feedback from their presentations.
Class: M W 8:00 – 9:15 AM Room ECE 310 Instructor: Professor Edl Schamiloglu Office: 323C ECE Building; Phone: 505-‐277-‐4423 e-‐mail: [email protected] Office Hours: Tu Th 9:00-‐10:15 AM and by appointment Prerequisites: ECE 557, or approval of the instructor Textbook: J. Benford, J. Swegle, and E. Schamiloglu, High Power Microwaves, 2nd Ed.
(Taylor and Francis, New York, NY, 2007). Supplemental material will also be provided.
Course Website: http://vista.unm.edu. You will need your UNM NET ID to access this page if
you are registered for the course. Course Objectives: Overview of physics of particle beams and applications at high-‐current and
high-‐energy. Topics include review of collective physics, beam emittance, space-‐charge forces, transport at high power levels, and application to high power microwave generation.
Grading: Class discussions (50%); Final project report and presentation (50%). There
will be no problem sets and no exams.
SERIES IN PLASMA PHYSICSSERIES IN PLASMA PHYSICS
SERIES EDITOR: S COWLEY
Physics
JAMES BENFORDJOHN A. SWEGLEEDL SCHAMILOGLU
HIGH POWER MICROWAVESSECOND EDITION
HIGH POWER MICROWAVES, SECOND EDITION
HIGH POWER MICROWAVES
SECOND EDITION
BENFORDSWEGLE
SCHAMILOGLU
www.taylorandfrancisgroup.com
270 Madison AvenueNew York, NY 10016
2 Park Square, Milton ParkAbingdon, Oxon OX14 4RN, UK
IP366
High Power Microwaves, Second Edition is the new, completely revised and rewritten successor to the authors’ first edition of High Power Microwaves, which was considered the defining book for the field. The new book achieves two goals. First, it is a textbook, intended for classroom use or self-study, with problem sets. Second, it has been written from a systems perspective, providing a unified, coherent presentation of both the fundamentals in this rapidly changing field and the methodology by which the key technology elements are brought together in a full system. The presentation is detailed where necessary, covering the unique features of the technology, including all the major types of microwave sources, their distinguishing features, and primary research issues, and the fundamental limits on performance. In addition, the authors step back to provide the required background in diagnostics, supporting prime and pulsed power technology, and facility considerations.
See what’s new in the second edition:
• Coverage of HPM systems with a detailed example called the SuperSystem• Textbook format with problem sets suitable for classroom instruction or self-paced learning• A survey of a class of high power radiators, Ultrawideband, with very different technologies and applications, that has fully emerged since the first edition• New HPM formulary contains a handy compilation of frequently used rules of thumb and formulas
The book outlines historical trends that have led to the development of HPM and compares the capabilities of HPM to those of conventional microwaves. It divides the field into two sectors: applications driven and technology driven, and address both perspectives. Starting from the applications of HPM, the book reviews microwave fundamentals, enabling technologies, and the equipment and facilities surrounding the sources in which microwaves are generated. The authors conclude with coverage of ultrawideband technologies and the major source groups.
Cover illustration:MILO simulation showing microwave fields and particle flows
IP366_COVER.indd 1 12/11/06 2:27:44 PM
Charged Particle Beams and High Power Microwaves
ECE 558 Spring 2011
A Scenario-‐Based Learning Course
Tentative Learning Schedule
Week# Day Date Topic Text Chapter 1 Mon 17 Jan No Class – MLK Jr. Observance Read Chapter 1 Wed 19 Jan Designing HPM Systems Chapter 2 (No Class, Prof. Schamiloglu on Travel to
London for IEC Committee Meeting) 2 Mon 24 Jan Discussion of Systems Approach Chapter 2 and conduct of class – Prof. Schamiloglu Wed 26 Jan Applications (I) – student Chapter 3 3 Mon 31 Jan Applications (II) -‐ student Chapter 3 Wed 02 Feb Applications (III) – student Chapter 3 4 Mon 07 Feb Microwave Fundamentals (I) -‐ student Chapter 4 Wed 09 Feb Microwave Fundamentals (II) -‐ student Chapter 4 5 Mon 14 Feb Microwave Fundamentals (III) -‐ student Chapter 4 Wed 16 Feb Microwave Fundamentals (IV) -‐ student Chapter 4 6 Mon 21 Feb Enabling Technologies (I) -‐ student Chapter 5 (Prof. Schamiloglu on Travel to India
to give tutorial at IVEC-‐2011) Wed 23 Feb Enabling Technologies (II) -‐ student Chapter 5 (Prof. Schamiloglu on Travel from India
to Turkey to give lectures) 7 Mon 28 Feb Enabling Technologies (III) -‐ student Chapter 5 Wed 02 Mar Ultra-‐wideband Systems -‐ student Chapter 6 8 Mon 07 Mar RelMag/MILO (I) -‐ student Chapter 7 Wed 09 Mar Project Proposals Review – Prof. Schamiloglu Spring Recess March 14-‐18 9 Mon 21 Mar RelMag/MILO (II) -‐ student Chapter 7 Wed 23 Mar RelMag/MILO (III) -‐ student Chapter 7 10 Mon 28 Mar Cerenkov Devices (I) -‐ student Chapter 8 Wed 30 Mar Cerenkov Devices (II) -‐ student Chapter 8 11 Mon 04 Apr Klystrons/Reltrons (I) -‐ student Chapter 9 Wed 06 Apr Klystrons/Reltrons (II) -‐ student Chapter 9 12 Mon 11 Apr Klystrons/Reltrons (III) -‐ student Chapter 9 Wed 13 Apr Vircator/Gyro/FEL (I) -‐ student Chapter 10 13 Mon 18 Apr Vircator/Gyro/FEL (II) -‐ student Chapter 10 Wed 20 Apr Vircator/Gyro/FEL (III) -‐ student Chapter 10 14 Mon 25 Apr Nonlinear Transmission Lines (I) – Prof. Schamiloglu Wed 27 Apr Nonlinear Transmission Lines (II) – Prof. Schamiloglu 15 Mon 02 May Project Presentations Wed 04 May Project Presentations