07-1352/Class Notes for January 30: Difference between revisions
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{{07-1352/Navigation}} |
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{{In Preparation}} |
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==Tentative Future Plans== |
==Tentative Future Plans== |
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My overall plan is to dump on you unsuspecting victims all (or at least most) of what I know which is relevant to the construction of an Algebraic Knot Theory so that at the end of this class you will in principle be as ready as I am to carry out independent research |
My overall plan is to dump on you unsuspecting victims all (or at least most) of what I know which is relevant to the construction of an Algebraic Knot Theory so that at the end of this class you will in principle be as ready as I am to carry out independent research on the subject. There are some gaps in my own knowledge; if you don't think on your own, at the end you'll have the same ones too. |
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===Today=== |
===Today=== |
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A discussion of grading policy and of future plans, and then a long list of "I don't know"s regarding: |
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* More about quotients, and especially, a discussion of [[The HOMFLY Braidor Algebra]]. |
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* Ng's no-go theorem for ribbon knots ({{arXiv|q-alg/9502017}} and {{arXiv|math.GT/0310074}}) and the no-go theorems we still don't have (and with a lot of luck, we'll never have) about the fusion number, the unknotting number and the genus. |
* Ng's no-go theorem for ribbon knots ({{arXiv|q-alg/9502017}} and {{arXiv|math.GT/0310074}}) and the no-go theorems we still don't have (and with a lot of luck, we'll never have) about the fusion number, the unknotting number and the genus. |
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===The Following Two Weeks - Weeks 5 and 6=== |
===The Following Two Weeks - Weeks 5 and 6=== |
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A construction of <math>Z</math> following Kontsevich's Knizhnik-Zamolodchikov approach with the added wisdom of {{ref|Le_Murakami_97}} and {{ref|Murakami_Ohtsuki_97}}. |
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===Week 7 and 8=== |
===Week 7 and 8=== |
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===Weeks 9 and 10=== |
===Weeks 9 and 10=== |
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Back to the degree-by-degree approach. |
Back to the degree-by-degree approach. |
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* A construction of <math>Z</math> using parenthesized tangles. |
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* "Gauge equivalence" and the near uniqueness of <math>Z</math>. |
* "Gauge equivalence" and the near uniqueness of <math>Z</math>. |
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* What this all means in the language of knotted trivalent graphs. |
* What this all means in the language of knotted trivalent graphs. |
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Latest revision as of 16:57, 30 January 2007
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Tentative Future Plans
My overall plan is to dump on you unsuspecting victims all (or at least most) of what I know which is relevant to the construction of an Algebraic Knot Theory so that at the end of this class you will in principle be as ready as I am to carry out independent research on the subject. There are some gaps in my own knowledge; if you don't think on your own, at the end you'll have the same ones too.
Today
A discussion of grading policy and of future plans, and then a long list of "I don't know"s regarding:
- More about quotients, and especially, a discussion of The HOMFLY Braidor Algebra.
- Ng's no-go theorem for ribbon knots (arXiv:q-alg/9502017 and arXiv:math.GT/0310074) and the no-go theorems we still don't have (and with a lot of luck, we'll never have) about the fusion number, the unknotting number and the genus.
The Following Two Weeks - Weeks 5 and 6
A construction of following Kontsevich's Knizhnik-Zamolodchikov approach with the added wisdom of [Le_Murakami_97] and [Murakami_Ohtsuki_97].
Week 7 and 8
Back to the PBW theorem.
- Proof and some variants.
- Wheeling and the algebra morphism from to .
Weeks 9 and 10
Back to the degree-by-degree approach.
- A construction of using parenthesized tangles.
- "Gauge equivalence" and the near uniqueness of .
- What this all means in the language of knotted trivalent graphs.
Weeks 11 through 13
Reserved.
- Students lectures?
- More on the relationship with Chern-Simons theory?
- LMO, Århus and invariants of 3-manifolds?
- Somethings else?
References
[Le_Murakami_97] ^ T. Q. T. Le and J. Murakami, Parallel Version of the Universal Vassiliev-Kontsevich Invariant, Journal of Pure and Applied Algebra 121 (1997) 271-291.
[Murakami_Ohtsuki_97] ^ J. Murakami and T. Ohtsuki, Topological Quantum Field Theory for the Universal Quantum Invariant, Communications in Mathematical Physics 188-3 (1997) 501-520.
