Author Archives: kiwinerd

Lecture 05 Mar

Today we explain the light-front gauge incarnation of kappa-symmetry, a local fermionic symmetry on the worldline/worldsheet, which permits construction of a manifestly supersymmetric action. We start by constructing the story for the superparticle. Then we move to the superstring. In … Continue reading

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Homework 3

N.B.: I am extending the penalty-free hand-in deadline to 6pm Monday 17th March. (Note: this is a one-time extension, which will not apply to HW4 or HW5. They will be due as previously advertised on Fri.28.Mar and Fri.11.Apr) Question 1 … Continue reading

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Lecture 29 Feb

Today we introduced spinors in various dimensions D=p+q. In particular, starting from the basic Dirac matrix algebra anticommutation relations, we derived the fact that Dirac spinors in D dimensions have dimensionality 2[D/2].

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Lecture 27 Feb

Today we restarted our discussion of the superstring, and built the state space using Ramond and Neveu-Schwarz fermions.

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Lecture 15 Feb

This time we discuss construction of the closed bosonic string state space; supersymmetric string theory.

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Homework 2

Please turn in your homeworks in one of two forms: electronic (in TeX or scanned PDF) via my box handwritten (in which case please ensure that you use heavier, good-quality paper. I have to put your homeworks through a scanner … Continue reading

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Lecture 13 Feb

This lecture covers the physics of how the critical dimension and zero-point mass shift come about.  Here are my notes from today’s lecture.

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Lecture 08 Feb

Ahhhh, open string quantization, at last! In light-front gauge, that is. Next time, we prove closure of the Lorentz algebra if the critical dimension is given by (d-2)=24 and the mass-squared shift is -1 (in appropriate units).

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Lecture 06 Feb

Today’s chapter of Zwiebach, Ch.11, discusses [first] quantization for the relativistic point particle (with geometric action) in light front gauge. LF gauge leads to a number of simplifications. We also construct the Poincare symmetry generators as a prelude to open … Continue reading

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Lecture 01 Feb

Here are the lecture notes for quantization of fields of spin s=0,1,2 in LF gauge. The relevant chapter of Zwiebach is Chapter 10, which runs through light-front quantization of fields carrying intrinsic spin s=0,1,2.

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