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8.701  Intro: Nuclear & Particle Physics

Fall 2010

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First evidence of neutral current interactions from the Gargamelle experiment.  Courtesy CERN.

Instructors: Ulrich J Becker, Markus Klute, June L Matthews, Steven Nahn

TA: Matthew Scott Rudolph

Lecture:  TR1.30-3  (26-414 )
K Room Phone:  617 324 8767 
CERN Room Phone:  [011]{41} 22 767 6293     

Information: 

  • Course Description

    This is a introductory graduate level course pursuing the understanding of the constituents of nature and their interactions on the most fundamental level, with an emphasis on the experimental establishment of the leading models, and the theoretical tools and experimental apparatus used to establish them.

  • Assignments and Grading Policy

    Homework will be made available weekly on Thursdays, to be turned in the following Thursday, and will make up 50% of the grade. The other 50% will be for the one final at the end of the course.

  • Textbooks

    • Required (recommended) course textbook:

      Title:

      Author:
      Quarks and Leptons F. Halzen and A. D. Martin
      Introduction to Nuclear Physics S.M. Wong
      Introduction to Elementary Particles D. Griffith
      Particles and Nuclei: An Introduction to the Physical Concepts B. Povh et al.

    • Other useful literature:

      Title:

      Author:

      Modern Quantum Mechanics

      J.J. Sakurai

    • Texts for Accelerators and Detectors

      Title:

      Author:

      Publisher

      ISBN:

      The Physics of Particle Accelerators: An Introduction

      Klaus Wille, Jason McFall (Translator)

      Clarendon (May 2001)

      0-198505493

      Introduction to Experimental Particle Physics

      Richard Fernow

      Cambridge University Press

      0-521-37940-7 (paperback)

      Techniques for Nuclear and Particle Physics Experiments

      W.R. Leo

      Springer-Verlag

      0-387-17386-2

  • Useful Links

Announcements

HW #8 Due Date moved

Hello All
  Due to popular demand, I have moved the due date of HW #8 from today to next Monday, 11 PM EST for everybody.  I realize for those of you who have stayed up all night trying to finish that this might be more of an aggravation than a relief, but you can allieviate your irritation with the thought that you do not need to spend all weekend doing 8.701 homework due to your diligence, while your slacker colleagues slave away.

Prof Nahn

Announced on 12 November 2010  3:20  a.m. by Steven Nahn

Typo in HW #5

Hi All
  In my haste I made a mistake which might generate confusion in Problem  #2 of Homework #5.  The point is to show that G(phi) = -phi where phi is the pion isotriplet vector.  As penance, I'll also give you a hint - antiparticles transform slightly differently than particles under isospin transformations, see for instance H&M page 42.

Announced on 19 October 2010  5:55  a.m. by Steven Nahn

Final Exam Scheduled

FINAL EXAM, Dec 13, 2010 09:00-12:00

Plan accordingly.   If you have any issues with this time, please let me know ASAP.

 

Announced on 24 September 2010  7:04  a.m. by Steven Nahn