Timeline for Patterns in solutions to $a^2 + b^2 + c^2 = n$
Current License: CC BY-SA 3.0
9 events
| when toggle format | what | by | license | comment | |
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| Nov 10, 2019 at 19:10 | vote | accept | john mangual | ||
| Oct 13, 2017 at 16:54 | comment | added | GH from MO | @LiorSilberman: I agree. I would be interested in any results in that ddirection. | |
| Oct 13, 2017 at 0:45 | comment | added | Lior Silberman | Note that equidistribution does not rule out "lower-order" patterns, e.g. enhancement near subvarieties, as long as these enhancements don't rise to the level of putting positive mass on these lower-dimensional subsets. | |
| Oct 13, 2017 at 0:01 | comment | added | Will Jagy | You might add Duke and Schulze-Pillot (1990) for other positive ternary forms, I put a copy at zakuski.math.utsa.edu/~kap/Duke_Schulze_Pillot_1990.pdf There is a simplified version in the corollary to Theorem 3 | |
| Oct 12, 2017 at 23:55 | history | edited | GH from MO | CC BY-SA 3.0 |
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| Oct 12, 2017 at 23:54 | comment | added | GH from MO | @johnmangual: Yes. I should add that Duke's theorem is rather deep, it is one of the celebrated results of analytic number theory. | |
| Oct 12, 2017 at 23:53 | comment | added | john mangual | I agree with you that any patterns, if they exist, eventually go away. | |
| Oct 12, 2017 at 23:52 | history | edited | GH from MO | CC BY-SA 3.0 |
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| Oct 12, 2017 at 23:42 | history | answered | GH from MO | CC BY-SA 3.0 |