Lectures:
11:00-12:15, Tuesday and Thursday, UPL 109.
Lectures:
11:00-12:15, Tuesday and Thursday, UPL 109.
Professor : Laura Reina, 510 Keen Building,
644-9282, e-mail: click
here
Office Hours: Tuesday, from 2:00 p.m. to 4:00
p.m.
Text :
Michael E. Peskin and Daniel V. Schroeder, An Introduction to
Quantum Field Theory , Addison-Wesley Publishing Company [PS]
Michele Maggiore, A Modern Introduction to Quantum Field Theory ,
Oxford University Press [MM]
S. Weinberg, The Quantum Field Theory of Fields,
Vol. I, Cambridge University Press [SW]
M. Srednicki, Quantum Field Theory,
Cambridge University Press [Sr]
M. D. Schwartz, Quantum Field Theory and the Standard Model,
Cambridge University Press [Sw]
C.Itzykson and J.-B. Zuber, Quantum Field
Theory, McGraw-Hill International Editions [IZ]
L.H. Ryder, Quantum Field Theory,
Cambridge University Press [Ry]
L. Landau and E. Lifchitz, Quantum Electrodynamics,
Pergamon Press [LL]
A. Zee, Quantum Field Theory in a nutshell,
Princeton University Press [Zee]
S. Sternberg, Group Theory and Physics,
Cambridge University Press [Ste]
Topics:
| Date | Topics covered | Reference | 01/07 | Review of QED Renormalization. How to calculate a QED cross section including the first order of radiative corrections: virtual and real corrections, cancellaton of UV and IR divergences, general discussion. | [PS] Parts of Ch. 6, 7, and 10. | 01/12-21 | No class | Work on Homework 1. | 01/26 | Calculating the cancellation of UV singularities in the virtual cross section for electron scattering at O(alpha). | [PS] Parts of Ch. 6, and 7, your notes. | 01/26 | Make-up class: 2:00-3:30 PM, 503 Keen. Calculating the IR singularities in the virtual cross section for electron scattering at O(alpha). | [PS] Parts of Ch. 6 and 7, your notes. | 01/28 | Calculating the IR singularities in the real-photon-emission cross section for electron scattering at O(alpha). | [PS] Parts of Ch. 6 and 7, your notes. | 02/02 | QED Ward identity, diagrammatic derivation. Prove that Z1=Z2 using Ward identity. Charge renormalization. | [PS] Sections 7.4 and 7.5. | 02/02 | Make-up class: 2:00-3:30 PM, 503 Keen. Introduction to path-integral quantization. | [PS] Section 9.1. [Sr] Chapter 6-7. | 02/04 | Path-integral methods in quantum field theory: correlation functions and generating functional. | [PS] Section 9.2, [Sr] Chapter 8. | 02/09 | Path-integral methods in quantum field theory: perturbation theory and the generating functional. | Your notes, [Sr] Chapter 9. | 02/09 | Make-up class: 2:00-3:30 PM, 503 Keen. Path-integral methods in quantum field theory: quantization of the electromagnetic field, Faddeev-Popov method. | [PS] Section 9.4, [Sr] Chapter 57. | 02/11 | Path-integral methods in quantum field theory: quantization of spinor fields; QED. | [PS] Section 9.5, [Sr] Chapter 58. | 02/16 | Introduction to the Renormalization Group: Callan-Symanzik equation, definition of beta-function, mass anomalous dimension, and field anomalous dimension. | [PS] Section 12.2, [Sr] Chapter 27. | 02/18 | No class | Work on Homework 3. | 02/23 | Renormalization Group: solution of RGE, discussion of the calculation of beta and gamma's functions in the minimal subtraction scheme. Example: phi^4 theory. | [PS] Section 12.2, [Sr] Section 28. | 02/23 | Make-up class: 2:00-3:30 PM, 503 Keen. Renormalization Group: calculation of the beta function of QED, effective coupling constant, expansion in leading logarithms. | [PS] Section 12.3, Your Notes | 02/25 | Renormalization Group: Wilson Approach to Renormalization Theory, I. | [PS] Section 12.1, WK-paper | 03/01 | Renormalization Group: Wilson Approach to Renormalization Theory, II. | [PS] Section 12.1, WK-paper | 03/01 | Make-up class: 2:00-3:30 PM, 503 Keen. Non-abelian gauge theories: introduction. | [PS] Sections 15.1-15.2 (Section 15.3: read as reference) | 03/03 | No class | 03/04 | Make-up class: 12:30-1:30 PM, 503 Keen. Non-abelian gauge theories: the Yang-Mills Lagrangian, Feynman rules. | [PS] Sections 15.2 and 16.1 | 03/08 | Spring Break | 03/010 | Spring Break | 03/15 | Quantum Non-Abelian Gauge Theories: Faddeev-Popov method, ghost fields and unitarity. | [PS] Sections 16.2-16.3 | 03/15 | Make-up class: 2:00-3:30 PM, 503 Keen. Non-abelian gauge theories: BRST symmetry. | [PS] Section 16.4 | 03/17 | Quantum Non-Abelian Gauge Theories: renormalization and beta-function. | [PS] Section 16.5 | 03/18 | Make-up class: 12:30-1:30 PM, 503 Keen. | Introduction to QCD: puzzling experimental facts merge with new theoretical developments.[PS] Sections 14 and 17.2 | 03/22 | Quantum Chromodynamics: theoretical structure and its implications. | [PS] Sections 17.1-17.2 | 03/22 | Make-up class: 2:00-3:30 PM, 503 Keen. Quantum Chromodynamics: Deep Inelastic Scattering, Parton Distribution Functions. | [PS] Section 17.3 | 03/24 | Quantum Chromodynamics: Hard scattering processes in hadron collisions, general structure. Introduction to the Electroweak Theory. | [PS] Sections 17.4 and 20.1 | 03/25 | Make-up class: 12:30-1:45 PM, 503 Keen. Gauge theories with spontaneous symmetry breaking. | [PS] Section 20.1 | 03/28 | Dirac Lectures on Neutrino Physics. 10:00 a.m.-12:00 p.m. and 2:00-4:00 p.m., in Keen 707. | 2016 Dirac Lectures | 03/29 | Dirac Lectures on Neutrino Physics. 10:00 a.m.-12:00 p.m. and 2:00-4:00 p.m., in Keen 707. | 2016 Dirac Lectures | 03/29 | Make-up class: 12:00-1:30 PM, 503 Keen. The gauge theory of electroweak interactions: the Glashow-Weinberg-Salam theory or Standard Model. | [PS] Section 20.2, [SW] (Ch. 21) | 03/30 | Dirac Lectures on Neutrino Physics. 10:00 a.m.-12:00 p.m. and 2:00-4:00 p.m., in Keen 707. | 2016 Dirac Lectures | 03/31-04/19 | No class | Work on Homework 5 and Final Exam. | 04/21 | We resume class, regular schedule |
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Homework:
Exams and Grades.
The grade will be based 70% on the homework and 30% on the Final Exam, and will be roughly determined according to the following criterium:
100-85% : A or A-
84-70% : B- to B+
below 70% : C
Attendance, participation, and personal interest will also be important factors in determining your final grade, and will be used to the discretion of the instructor.
The Final exam is a take-home exam and will be available two weeks before Final Exam week, to be returned on a date that will be specified at that time.
Attendance. Regular, responsive and active
attendance is highly recommended. A student absent from class bears
the full responsibility for all subject matter and information
discussed in class.
Absence. Please inform me in advance of any excused
absence (e.g., religious holiday) on the day an assignment is due.
In case of unexpected absences, due to illness or other serious
problems, we will discuss the modality with which you will turn in
any missed assignment on a case by case basis.
Assistance.
Students with disabilities needing academic accommodations should: 1)
register with and provide documentation to the Student Disability
Resource Center (SDRC); 2) bring a letter to me from SDRC indicating
you need academic accommodations and what they are. This should be done
within the first week of class. This and other class materials are
available in alternative format upon request.
Honor Code. Students are expected to uphold the
Academic Honor Code published in the Florida State University Bulletin
and the Student Handbook. The first paragraph reads: The Academic
Honor System of Florida State University is based on the premise that
each student has the responsibility (1) to uphold the highest
standards of academic integrity in the student's own work, (2) to
refuse to tolerate violations of academic integrity in the University
community, and (3) to foster a high sense of integrity and social
responsibility on the part of the University community.