Quantum Field Theory
26 hours of lectures, Rapid Feedback classes (see below) every two weeks plus two office hours each week, all during the Autumn term. Seven problem sheets will be handed out but are not assessed, along with numerous additional handouts. A final revision lecture and exam office hours will be given in the summer term.
The physics undergraduate lecture schedule on the undergraduate website is the definitive timetable for this course, not the MSc timetable available elsewhere.
Recent Updates (13/11/18)
(13/11/18) Typos in handout "Matrix Element to Green Function (13/11/18)" corrected: (12) has a psi dagger operator while (13) has a psi (no dagger) operator (the daggers had been the other way round), and there is an exp(-ipy) (note minus sign) factor in (18). Now updated online.
(9/11/18) PS4 answers (22/10/18) now online. PS5 was handed out today but you can only do the first question at the moment. Handouts on SYTh (Scalar Yukawa Theory) and on Matrix Elements to Green functions also handed out at today's lecture.
(5/11/18) Mini student survey on the QFT course, follow this link to menti.com or type in the address menti.com in a browser and then the code 24 93 70. I tested it before and after the lecture and it works for me but let me know if there are problems. I'll take a look at comments and feedback from this mini survey and respond next week.
(12/10/18) I welcome anyone who wants to come along to the course. We are all here to exchange ideas - I always learn from the questions put to me. If QFT is not a standard option for your course and you want credit for the course, you should make sure that this has been arranged with your department, your course director, the Physics exam officer and me. The only limitation I make is that I will not mark the final exam script if it is not for credit. I can see no advantage to staff or students in this as you get no feedback on the answers other than a single grade. So do come along, ask me questions in the office hours, hand in the nominated questions to the rapid feedback presenter for written feedback, and participate in every other way. Everyone is very welcome.
(14/9/18) Live Video Feed. The lecture theatre is busy but not over capacity; there are seats available. However you may wish to take advantage of a live video feed of the QFT lectures on Panopto.
General Information for Autumn 2018 Course
- A Summary of key facts (5/10/18) (office hour times corrected) provides general overview and guidance on the prerequisites and knowledge needed for this course. Checkout PS1 (11/10/17) (Problem Sheet 1) as that is a good test to see if you are ready for the course.
- Syllabus for the Autumn 2017 QFT course is available. Unlikely to change for the Autumn 2018 course. A final and definitive 2018 syllabus will be issued at the end of the course.
- There is normally an early rapid feedback in the second week of Autumn term on Q2 and Q4 of PS1 (11/10/17). This problem sheet does not draw on material from the lecture course but it illustrates the level of algebraic manipulations of annihilation and creation operators needed for the course. The problem sheet acts as a warm up for the course and can be done before the course starts. For written feedback hand in by noon, Monday before the class, as detailed under the rapid feedback section of this website.
- The library has a nice version of my QFT bibliography with links to the actual texts. Information from my Bibliography (5/5/18) is largely duplicated there except for my comments on each text.
Below is a rough outline of the course. A detailed Syllabus for the Autumn 2017 QFT course is online and no major changes are expected in 2018 from the 2017 course. Check my Bibliography (5/5/18) with more detailed comments on a range of books.
Introduction. (1 lecture) Basic aims and ideas of field theory. Types of field and relationship to symmetries (relativistic, non-relativistic symmetry and other particle symmetries).
Classical Field Theory and Scalar Fields. (5 lectures) Lagrangian and Hamiltonian descriptions of field theory. Linearity and interactions. Scalar Field Plane wave solutions of the Klein Gordon equation. Internal symmetries and Noether's theorem.
Free QFT. (5 lectures) Quantisation and commutation relations. Creation and annihilation operators. Time and QFT. Complex scalar fields and their conserved charge.
Interacting QFT. (14 lectures) Interaction Picture and S matrix. Wick's theorem and normal ordering. Simple Feynman diagrams in coordinate and momentum spaces. Cross sections, matrix elements and vacuum expectation values. Vacuum diagrams. Basic example of mass renormalisation.
Note that Fermions were included by previous lecturers so you will find some older exam papers contain questions no longer covered by this course though the Unification course will look at classical fermions and QFFF MSc will cover fermions in QFT in other courses.
Provisional times for my office hours are Mondays at 12 noon and Thursdays at 9.00am. If I need to move the time of one of two of these office hours, these changes will be posted here and announced in the lectures.
All students are welcome to drop into my office hours to ask questions or just to listen to the discussions. I'm happy to talk about anything related to the QFT course.
Rapid Feedback Classes
The first QFT Rapid Feedback Class for Autumn 2018 is in week 2 on Thursday 11th October at 1pm in Lecture Theatre 2 (again check your timetable). Later ones are then on alternate weeks (so all even weeks) on Fridays at 17.00 in Lecture Theatre 2 but check your timetable for the lastest information.
The rapid feedback sessions are run by a PhD student Lucas Wallis from the theoretical physics group. For each rapid feedback class the lecturer will nominate a couple of questions from one of the problem sheets. If students wish written feedback on their answers to these nominated questions only, they hand their work on those two questions to the Physics Undergraduate Student Administrative Office on Level 3 in Blackett by 12.00 on Monday 8th October for the first session and then 12.00 on Wednesday before every other presentation. The UG office on level 3 Blackett will provide boxes for this. The PhD student will provide written feedback on answers (for the nominated questions only) and will return these scripts, either at his presentation on the following Friday or via the student office again.
Handing in the work and/or attending the rapid feedback classes are optional. This work does not contribute to the course assessment. Students are strongly advised to make use of this opportunity for feedback and extra tuition.
Note that only the nominated questions are dealt with by the PhD student in charge of rapid feedback. I provide full answers for all questions and am happy to discuss the problem sheets in my office hours.
Rapid Feedback Timetable Autumn 2018
Please refer to the official timetable which is the definitive guide. To gain written feedback, hand in your work to the Physics Undergraduate Student Administrative Office on Level 3 by noon on the Tuesday before the presentation unless stated below.
- Week 2: Thursday 11th October, PS1, Q2 and 4. Note hand in for feedback for this rapid feedback only is by noon on Monday 8th October to UG office.
- Week 4: Friday 26th October, PS2, Q3 and 4.
- Week 6: Friday 9th November, PS4, Q1 and 4.
- Week 8: Friday 23rd November, PS5, Q2 and 3.
- Week 10: Friday 7th December, PROVISIONAL PS6, Q3 and 4.
Problem Sheets, Handouts, Notes
Syllabus for the Autumn 2017 QFT course. Will be updated with Autumn 2018 syllabus at the end of the Autumn 2018 term but I am not expecting any changes.
David Tong's QFT lecture notes match this course well.
Tim Evans' handwritten QFT notes . I will try to keep these updated but changes are now relatively small from year to year.
QFT Lecture Notes 2017 taken by Stav Zalel (PhD student note taker so should be very similar, if much neater, version of lecturer's notes)
Individual handouts (also see below for supplementary material not handed out):-
- Summary of key facts (5/10/18)
- Bibliography (5/5/18) or Library's QFT Course Bibliography - the former has my comments on each text, the latter links texts to library resources.
- Notation (1/2/18)
- Fourier Transforms, Delta Functions and Theta Functions (3/10/17)
- The Retarded Propagator and Cauchy's Theorem (1/11/18)
- The Feynman Propagator and Cauchy’s Theorem (1/11/18)
- Different Pictures in QFT (22/10/18)
- Scalar Yukawa Theory - SYTh (10/11/17)
- Recipe For Perturbative QFT (12/11/18)
- Matrix Element to Green Function (13/11/18) Note there were typos in equations 12, 13 and 18 earlier versions inluding that used for printed copies. This version is correct.
- Operator Ordering (2/1/18)
- Notes on Wick's Theorem (12/11/18) see also Haisch's notes on Wick's theorem
- Feynman Rules for SYTh in Coordinate Space (24/11/17)
- 'Diagramology' - Types of Feynman Diagram (2/12/18)
- The Free Vacuum and the Physical Vacuum (30/11/17)
- Feynman Rules in Momentum Space (21/12/17)
- Cross Sections (30/11/17)
Problem Sheets and Solutions
- PS1 (11/10/17) Annihilation and Creation Operators.
Students must be able to handle this problem sheet before taking this course. I will assume students are already experienced in handling such operators and I will not be covering this aspect in the course. See my course summary handout for more details.
- PS2 (8/10/18) One-Dimensional Model (ring of masses)
- PS3 (8/10/18) Classical Field Theory.
- PS4 (5/11/18) Free Scalar Quantum Field Theory
- PS5 (22/10/18) Generic Interacting Quantum Field Theory
- PS6 (20/11/17) Feynman Diagrams in Coordinate Space
- PS7 (30/11/17) Interacting Quantum Field Theory: λφ4
Solutions are posted about a week after Problem Sheet material has been covered in lectures or just after the hand in has been made for any relevant Rapid Feedback:
This may be of interest or use to supplement other material.
- Note the videos on Panopto (links elsewhere on this website).
- These notes on Classical Field Theory are taken from a longer set of notes I made for my old Unification course.
Those doing the Unification course might find my old incomplete notes on Symmetry and Unification useful. They contain a brief overview of the background particle physics and group theory needed for Unification so may be of use more generally. The notes are unfinished in places so use with care. I have no plans at the moment to finish these Unification notes but will happily make small corrections if they are pointed out to me.
- Haisch's notes on Wick's theorem, taken from Interacting Fields notes.
- Chapters 1 and 2 of the lecture notes on QFT by Timo Weigand look useful. Some material in those is not in this course but will be useful for QFFF students, as will the later chapters.
This is a final exam which is the same for undergraduates and postgraduates. The assessment for this course is based only on this exam.
The Syllabus for the Autumn 2017 QFT course lists the examinable material. All material covered in the lectures is examinable except for the lecture on Fermions. Material in the problem sheets is examinable except for those questions marked as optional. The questions marked with a star in the problem sheets are core material, those unmarked are important, but I will not assume any knowledge of questions marked optional. I could draw on material contained in the optional questions but this would only to be for the last few marks of a paper and I will not assume any prior knowledge.
The current course will be reflected in exams from May 2015 onwards. Earlier exams will contain some material no longer in the syllabus. However, the structure of the 2015 exam will be the same as recent years. That is students will have to answer three out of four questions, each question marked out of 30. Note that the department's policy is to put out solutions for undergraduate exams only every three years. However much of the material is derived from the problem sheets so you should find most answers in their solutions.
A Blank QFT Exam is available to illustrate the current format. Note in particular that a new appendix of formulae has been added for use in the exam in 2018 but this may be updated every year.
- QFT Exam 2018 and QFT Exam 2018 Comments
- QFT Exam 2017 and QFT Exam 2017 post exam comments.
- QFT exam 2016 and Comments on 2016 QFT Exam.
- qftexam2015.pdf, the solutions for 2015 QFT exam (12/5/16) and comments on 2015 QFT exam
Previous less relevant exams are 2006, 2007, 2008, 2009, 2010, 2011 and 2012. Solutions for undergraduate exams for the 2009 and 2012 are provided here, reproducing what is on the department's examination answers web page (Department of Physics - Students - Current Students - Undergraduates - Examinations).
New Year test
The QFFF MSc students only have the option to take a test on the QFT course early in the New Year (typically one of the first few days of Spring term). Students on other courses cannot take this test, but the material may be of use for revision purposes. This test is taken in exam conditions but the marks are only used to provide feedback to QFFF students. The test does not contribute to the final mark for the course. The New Year test is also used to support QFFF students by providing staff with useful information when writing references as many QFFF students have only been here for only a few months (though this is not a service provided by most MSc courses). The test will be made available here as soon as the formal test has finished as the test material may be of use to anyone revising for the final exam. The test is not a mock exam and it is not necessarily in the style of the final exam but the test is likely to share several features with the final exam. In particular, it covers exactly the same material as detailed for the exam. The January 2018 test was three exam style questions with no choice while the final exam requires three questions out of four.
- QFT New Year Test 2018 (8/1/18) (see relevant problem sheets for answers)
- QFT Test 2017 and General Comments on QFT Test 2017 (see relevant problem sheets for answers)
- 2016 QFT New Year Test and 2016 QFT New Year Test answers.
Note these are not model answers. The answers contain the minimum needed but they also contain extra material such as a longer discussion to illustrate how I am thinking through a problem.
- 2015 QFT Test (see relevant problem sheets for answers).
Like the final exam, only tests from 2015 onwards will reflect the current syllabus exactly, previous tests may contain material no longer on the syllabus but are provided below in case they are of use.
Videos of Lectures
The primary source is the Imperial College Panopto site which is the definitive and most up to date source - search for "Quantum Field Theory".
I adjust the settings for each video by hand (hopefully soon after the lecture but sometimes there may be a delay of a day or two) to maximise availability within College but I am limited by College policy in what I can do. The access lists are maintained by hand so may not be always up to date so if you have a problem contact me and I will pass your name on. In some cases sound may be poor - do remind me to wear the microphone and to make sure they are not muted. In some rare cases, the lecture may not have been recorded for some technical reason. Feedback on these videos (were they useful, how did you use them, ideas for improvements) welcome.
This list of links below is updated by hand often a few days after lectures so try the main Panopto site for latest videos.
Autumn 2018 Course
- 4/10/17 QFT Lecture 1 - 1. Introduction
- 6/10/17 QFT Lecture 2 - 2.1 Classical Dynamics, 2.2 One Dimensional Ring Model
- 8/10/17 QFT Lecture 3 - 2.2 One Dimensional Ring Model
- 9/10/18 QFT Lecture 4 - 2.3 Symmetry and Lagrangians (see also my notes on Classical Field Theory)
- 12/10/18 QFT Lecture 5 - 2.4 The Klein-Gordon Equation (see also my notes on Classical Field Theory)
- 16/10/17 QFT Lecture 6 - 2.5 Noether's theorem, 4.1 QHO
(note there is no section 3 in the current course)
- 17/10/17 QFT Lecture 7 - 4.1 QHO, 4.2 Free Real Scalar Field QFT
- 19/10/17 QFT Lecture 8 - 4.2 Free Real Scalar Field QFT
- 22/10/17 QFT Lecture 9 - 4.3 Time and QFT
Autumn 2017 Course
- 5/10/17 QFT Lecture 1 - 1. Introduction
- 6/10/17 QFT Lecture 2 - 2.1 Classical Dynamics, 2.2 One Dimensional Ring Model
- 9/10/17 QFT Lecture 3 - 2.2 One Dimensional Ring Model
- 10/10/17 QFT Lecture 4 - 2.3 Symmetry and Lagrangians (see also my notes on Classical Field Theory)
- 13/10/17 QFT Lecture 5 - 2.4 The Klein-Gordon Equation (see also my notes on Classical Field Theory)
- 16/10/17 QFT Lecture 6 - 2.5 Noether's theorem (note there is no section 3 in the current course)
- 17/10/17 QFT Lecture 7 - 4.1 QHO, 4.2 Free Real Scalar Field QFT
- 20/10/17 QFT Lecture 8 - 4.2 Free Real Scalar Field QFT
- 23/10/17 QFT Lecture 9 - 4.3 Time and QFT
- 27/10/17 QFT Lecture 10 - 4.4 Propagators and Two-Point Green Functions: Retarded.
- 30/10/17 QFT Lecture 11 - 4.4. Propagators and Two-Point Green Functions: Retarded, Wightman, Feynman.
- 31/10/17 QFT Lecture 12 - 4.5. Free Quantised Complex Fields
- 3/11/17 QFT Lecture 13 - 5.1 Interaction Picture
- 6/11/17 QFT Lecture 14 - 5.1 Interaction Picture, start of 5.2
- 10/11/17 QFT Lecture 15 - 5.2 Matrix Elements, state normalisation, definition of Scalar Yukawa Theory
- 13/11/17 QFT Lecture 16 - 5.2 Matrix Elements to Green functions
- 17/11/17 QFT Lecture 17 - 5.3 Normal Ordering and Contractions
- 20/11/17 QFT Lecture 18 - 5.3 Wick's Theorem: definition, use, and start of proof.
- 24/11/17 QFT Lecture 19 - 5.3 Wick's Theorem, end of proof; 5.4 Feynman rules.
- 27/11/16 QFT Lecture 20 - 5.4 Feynman Diagrams in Coordinate Space.
- 28/11/16 QFT Lecture 21- 5.4 Feynman Diagrams in Coordinate Space (cont.)
- 1/12/16 QFT Lecture 22 - 5.4 Feynman Diagrams and the Symmetry Factor, 5.5 Vacuums.
- 4/12/16 QFT Lecture 23 - 5.5 Feynman Diagrams, the Physical Vacuum and Vaccum Diagrams
- 5/12/16 QFT Lecture 24 - 5.6 Feynman Diagrams in Momentum space and Loop Momenta
- 8/12/16 QFT Lecture 25 - 5.7 Cross Section example
- 11/12/16 QFT Lecture 26 - 5.8 Renormalisation
Autumn 2016 Course
- 6/10/16 QFT Lecture 1
- 7/10/16 QFT Lecture 2
- 10/10/16 QFT Lecture 3
- 11/10/16 QFT Lecture 4
- 14/10/16 QFT Lecture 5
- 17/10/16 QFT Lecture 6
- 18/10/16 QFT Lecture 7
- 21/10/16 QFT Lecture 8
- 24/10/16 QFT Lecture 9
- 28/10/16 QFT Lecture 10 - 4.4. Two-Point Functions, Propagators
- 31/10/16 QFT Lecture 11 - 4.4. Retarded and Feynman Propagators
- 1/11/16 QFT Lecture 12 - 4.5. Complex Scalar Free Field Theory
- 4/11/16 QFT Lecture 13 - 5. Interacting QFT, 5.1 Interaction Picture
- 7/11/16 QFT Lecture 14 - 5.1 Interaction Picture, 5.2 Scalar Yukawa Theory Definition
- 11/11/16 QFT Lecture 15 - 5.2 Matrix Elements and State Normalisation
- 14/11/16 QFT Lecture 16 - 5.2 Matrix Elements from Green functions
- 18/11/16 QFT Lecture 17 - 5.3 Wick's Theorem, Normal Ordering and Contractions
- 21/11/16 QFT Lecture 18 - 5.3 Wick's Theorem proof
- 25/11/16 QFT Lecture 19 - 5.3 Wick's Theorem, 5.4 Feynman Diagrams
- 28/11/16 QFT Lecture 20 - 5.4 Feynman Diagrams in Coordinate Space
- 29/11/16 QFT Lecture 21- 5.4 Feynman Diagrams in Coordinate Space
- 2/12/16 QFT Lecture 22 - 5.4 Feynman Diagrams and the Symmetry Factor
- 5/12/16 QFT Lecture 23 - 5.4 Feynman Diagrams, the Physical Vacuum and Vaccum Diagrams
- 6/12/16 QFT Lecture 24 - 5.4 Feynman Diagrams in Momentum space and Loop Momenta
- 9/12/16 QFT Lecture 25 - 5.4 Cross Section example
- 12/12/16 QFT Lecture 26 - 5.5 Renormalisation
Autumn 2015 Course
Another list of the Autumn QFT 2015 Course Videos is available. Just ignore the fermion lecture for 2016 onwards.
- Monday 12th October. QFT Lecture 1, Introduction
- Tuesday 13th October (morning). QFT Lecture 2, Classical Field Theory
- Tuesday 13th October (afternoon). QFT Lecture 3, Classical Field Theory
- Friday 16th October. QFT Lecture 4, Classical Field Theory
- Tuesday 20th October. QFT Lecture 5, Classical Field Theory
- Wednesday 21st October. QFT Lecture 6, Classical Field Theory
- Friday 23rd October. QFT Lecture 7, Fermions
- Friday 23rd October. QFT Lecture 8, Free QFT
- Monday 26th October. QFT Lecture 8, Free QFT
- Tuesday 27th October. QFT Lecture 9, Free QFT
- Friday 30th October. QFT Lecture 10, Free QFT
- Monday 2nd November. QFT Lecture 11, Free QFT
- Friday 6th November. QFT Lecture 12, Free QFT
- Monday 9th November. QFT Lecture 13, Free Complex Scalar QFT
- Friday 13th November (morning). QFT Lecture 14, Interaction Picture
- Friday 13th November (afternoon). QFT Lecture 15, Interaction Picture
- Monday 16th November. QFT Lecture 16, Matrix Elements
- Friday 20th November. QFT Lecture 17, Wick's Theorem (no recording, technical failure)
- Monday 23rd November. QFT Lecture 18, Wicks Theorem
- Friday 27th November. QFT Lecture 19, Wick's Theorem
- Monday 30th November. QFT Lecture 20, 5.4, Feynman Diagrams
- Friday 4th December. QFT Lecture 21, 5.4, Feynman Diagrams
- Monday 7th December. QFT Lecture 22, 5.4, Feynman Diagrams - Symmetry Factors
- Thursday 10th December. QFT Lecture 23, 5.4, Feynman Diagrams - Vacuum Diagrams
- Friday 11th December. QFT Lecture 24, 5.4, Feynman Diagrams - Momentum space rules
- Monday 14th December. QFT Lecture 25, 5.4, Feynman Diagrams - Cross Sections
- Tuesday 15th December. QFT Lecture 26, 5.5 Renormalisation. Not recorded.
Some of the Autumn QFT 2014 Course Videos are available too.
Handwritten Notes 2017
These are a photcopy of my own notes and are not intended for student use. They may not reflect what was actually said as I may improvise in a lecture. I provide my notes as is in case they are any use. The notes have been corrected over the last few years so most errors have been eliminated from the older notes. At the same time, I do rewrite sections every year so new errors creep in. Do flag up any queries with me, I'm happy to correct mistakes or explain issues but I would rely on David Tong's typed notes for factors of i or signs.
Another much neater version of my notes are the QFT Lecture Notes 2017 taken by Stav Zalel, a PhD student note taker. They are based on what she heard in my lectures and has generously provided them for all student. Again, please note they are again provided as is. Every lecture should be here in this single pdf version, contact Tim Evans if a lecture is missing.
- Section 1. Introduction
- Section 2.1. Classical Dynamics
- Section 2.2. One-Dimensional Chain
- Section 2.3. Symmetry and Classical Fields
- Section 2.3. Klein-Gordon Equation and Section 2.4 Complex Fields
- Section 2.5. Noether's Theorem
- Section 4.1-4.3: 4.1 QHO, 4.2 Free Scalar Field QFT, 4.3 Time and QFT
- Section 4.4 Propagators
- Section 4.5 Quantised Free Complex Fields
- Section 5.1 Interaction Picture
- Section 5.2 Matrix Elements
- Section 5.3 Wick's Theorem
- Section 5.4 Feynman Diagrams
- Section 5.4 Feynman Diagrams in Coordinate Space
- Section 5.5 The Vacuum in QFT
- Section 5.6 Feynman Diagrams in Momentum Space
- Section 5.7 Cross Sections
- Section 5.7 Renormalisation