Timeline for On Zagier's missing continued fraction with multiple limits?
Current License: CC BY-SA 4.0
9 events
| when toggle format | what | by | license | comment | |
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| Sep 22 at 11:50 | comment | added | Tito Piezas III | @i9Fn I haven't, and the fact this cfrac has multiple limits may complicate things. But feel free to do so. It might yield surprising results like $\zeta(-1) = -\frac1{12}$. | |
| Sep 22 at 10:54 | comment | added | i9Fn | @TitoPiezasIII have you tried summing the divergent sequence with some summation methods? | |
| May 23, 2023 at 11:34 | vote | accept | Tito Piezas III | ||
| May 23, 2023 at 9:13 | comment | added | Tito Piezas III | Reading that paper right now. By the way, I made some minor variable changes to your answer to make it look more symmetrical and aesthetic. I hope it's ok. | |
| May 23, 2023 at 9:10 | history | edited | Tito Piezas III | CC BY-SA 4.0 |
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| May 22, 2023 at 20:46 | comment | added | Henri Cohen | There are 6 beautiful cfracs with $L(\chi_{-3},2)$ and $\zeta(2)$ together, 4 of them are given in my paper arXiv:2212.01095. Interestingly enough, these 4 are exactly the linear combinations in my answer above. | |
| May 22, 2023 at 18:53 | comment | added | Tito Piezas III | By the way, i already checked the 2 remaining cfracs I marked with “??” in my other post, and it was hard to find a pattern to the approximants mod 6 or mod 8, if there is any at all. | |
| May 22, 2023 at 18:46 | comment | added | Tito Piezas III | Beautiful! Gieseking and $\zeta(2)$ together. Do you how many minutes it took Wolfram Alpha to find just 4 decimals? 😊 | |
| May 22, 2023 at 18:40 | history | answered | Henri Cohen | CC BY-SA 4.0 |