Timeline for Roadmap for Algebraic Geometry/Homotopy Theory/Algebraic $K$-Theory intersection
Current License: CC BY-SA 4.0
13 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| S Mar 9 at 21:31 | history | bounty ended | Song Ye | ||
| S Mar 9 at 21:31 | history | notice removed | Song Ye | ||
| Mar 9 at 21:31 | vote | accept | Song Ye | ||
| Mar 9 at 21:02 | history | edited | David White | CC BY-SA 4.0 |
Added a tag, minor edits.
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| Mar 9 at 14:53 | answer | added | David White | timeline score: 5 | |
| Mar 7 at 21:35 | comment | added | Chris H | As someone who is only an epsilon further than you down this path, I found the Gille, Szamuely book on CSAs and Galois cohomology to be incredibly readable, and it gives a good quick introduction to lots of ideas in this area. It doesn't use any homotopy theory though, it's more for the algebraic side. | |
| S Mar 7 at 20:31 | history | bounty started | Song Ye | ||
| S Mar 7 at 20:31 | history | notice added | Song Ye | Authoritative reference needed | |
| Feb 28 at 11:37 | comment | added | Vik78 | I'd recommend watching Youtube lectures on the basics. The literature is so daunting that if you just started reading it might be a long time before you were even conversant. I've been watching the Munster lectures on Higher Algebra on Youtube. I think they're good for preparation if you have something in mind you want to read afterwards, and it's definitely quicker than reading Higher Algebra yourself. Generally I think there are a lot of good talks on derived algebraic geometry on Youtube. | |
| Feb 28 at 9:51 | history | edited | Daniele Tampieri | CC BY-SA 4.0 |
Minor Formatting
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| Feb 28 at 8:06 | review | Close votes | |||
| Mar 7 at 20:31 | |||||
| S Feb 28 at 6:26 | review | First questions | |||
| Feb 28 at 8:22 | |||||
| S Feb 28 at 6:26 | history | asked | Song Ye | CC BY-SA 4.0 |