Timeline for Explicit computations of small Deligne-Lusztig varieties (e.g. Drinfeld curve)
Current License: CC BY-SA 2.5
11 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| May 25, 2014 at 17:32 | vote | accept | Puraṭci Vinnani | ||
| May 25, 2011 at 23:51 | answer | added | Daniel Juteau | timeline score: 5 | |
| Jan 4, 2010 at 10:10 | vote | accept | Puraṭci Vinnani | ||
| May 25, 2014 at 17:32 | |||||
| Jan 4, 2010 at 10:10 | history | bounty ended | Puraṭci Vinnani | ||
| Jan 2, 2010 at 7:16 | answer | added | Jared Weinstein | timeline score: 7 | |
| Jan 1, 2010 at 23:09 | answer | added | Ben Webster♦ | timeline score: 2 | |
| Jan 1, 2010 at 21:22 | history | bounty started | Puraṭci Vinnani | ||
| Dec 31, 2009 at 3:02 | comment | added | Puraṭci Vinnani | Ah right, thanks. I'm still not sure how to get that from the second thing that I have though, confused about how to simplify the defining equations for that variety. | |
| Dec 30, 2009 at 12:21 | comment | added | user1594 | I think that $x^qy-y^qx=1$ is the Deligne-Lusztig variety for $SL_2$. You should be looking for $(x^qy-y^qx)^{q-1}=1$. | |
| Dec 30, 2009 at 11:20 | history | edited | Pete L. Clark | CC BY-SA 2.5 |
corrected spelling
|
| Dec 30, 2009 at 9:11 | history | asked | Puraṭci Vinnani | CC BY-SA 2.5 |