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:  edl@ece.unm.edu    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