Phys 232B: Quantum Field Theory II
Spring 2023
List of Reading Assignments
Here is our list of Reading Assignments for the 232B course this year. Each student who is officially registered for the course (or those additional ones who have the explicit permission from me) will select one of the available papers. You will sign up for your selected paper by email to me, and I will assign the papers on the first-come, first-served basis, confirming hopefully by an immediate return email whether you have been assigned to your chosen paper. The sign-up procedure will begin on Friday, March 24, at 1pm PDT, exactly. Please do not send me your selections by email before this "end-of-moratorium" time, in the interest of fairness I will have to ignore all premature requests.
Once your Reading Assignment has been confirmed by me, you will read the paper, eventually type a 2-page summary which you will email to me as a pdf file no later than one day before your presentation, and then present the main ideas of the paper in the Discussion Session presentation during the indicated week. Each student will make a 20 minute presentation (with laptop and a projector, in our regularly scheduled Discussion Session, in our usual room 402 Physics South), plus 5 minutes for questions.
Our presentations will start the week after Spring break, in our usual time and location reserved for our Discussion Sessions.
Thu, April 6, 3:40-4:55pm:
[1] S. Coleman, Quantum sine-Gordon Equation as the Massive Thirring Model, Phys. Rev. D11 (1975) 2088. [Rohith Karur]
[2] Y.-A. Chen, A. Kapustin and D. Radicevic, Exact Bosonization in Two Spatial Dimensions and a New Class of Lattice Gauge Theories, arXiv:1711.00515.
[3] A. Kapustin and R. Thorngren, Fermionic SPT Phases in Higher Dimensions and Bosonization, arXiv:1701.08264. [Swapnil Garg]
Thu, April 13, 3:40-4:55pm:
[4]
F.D.M. Haldane, Luttinger's Theorem and Bosonization of the Fermi Surface, arXiv:cond-mat/0505529. [Ahmed Hajr]
[5] C.P. Burgess, C.A. Lutken and F. Quevedo, Bosonization in Higher Dimensions, arXiv:hep-th/9407078. [Junkai Wang]
[6] M.A. Metlitski and A. Vishwanath, Particle-Vortex Duality aof 2d Dirac Fermion from Electric-Magnetic Duality of 3d Topological Insulators, arXiv:1505.05142.
Thu, April 20, 3:40-4:55pm:
[7] N. Seiberg, T. Senthil, C. Wang and E. Witten, A Duality Web in 2+1 Dimensions and Condensed Matter Physics, Ann. Phys. 374 (2016) 395, arXiv:1606.01989.
[8] F. Cachazo, P. Svrcek and E.Witten, MHV Vertices and Tree Amplitudes in Gauge Theory, JHEP 0409 (2004) 006, arXiv:hep-th/0403047. [Patrick Tran]
[9] R. Britto, F. Cachazo, B. Feng and E. Witten, Direct Proof of Tree-Level Recursion Relation in Yang-Mills Theory, Phys. Rev. Lett. 94 (2005) 181602, arXiv:hep-th/0501152. [Jack]
Thu, April 27, 3:40-4:55pm:
[10] E. Witten, Perturbative Gauge Theory as a String Theory in Twistor Space, Commun. Math. Phys. 252 (2004) 189, arXiv:hep-th/0312171. [Guanda Lin]
[11] D. Gaiotto, A. Kapustin, N. Seiberg and B. Willett, Generalized Global Symmetries, arXiv:1412.5148.
[Bea Noether]
[12]
Z. Bern, J.J.M. Carrasco and H. Johansson, Perturbative Quantum Gravity as a Double Copy of Gauge Theory, arXiv:1004.0476. [Pablo Castano]
Thu, May 4, 3:40-4:55pm:
[13] S. Carroll, S. Leichenauer and J. Pollack, A Consistent Effective Theory of Long-Wavelength Cosmological Perturbations, arXiv:1310.2920. [Bashi Mandava]
[14] J.J.M. Carrasco, M.P. Hertzberg and L. Senatore, The Effective Field Theory of Cosmological Large Scale Structures, arXiv:1206.2926. [Daniel Xing]
[15] W. Goldberger and I. Rothstein, An Effective Field Theory of Gravity for Extended Objects, arXiv:hep-th/0409156. [Siddharth Tiwary]
horava@berkeley.edu
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