Timeline for Modular forms and number of representations by binary quadratic forms
Current License: CC BY-SA 4.0
6 events
| when toggle format | what | by | license | comment | |
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| Feb 16, 2021 at 0:52 | answer | added | Will Jagy | timeline score: 4 | |
| Feb 16, 2021 at 0:50 | comment | added | Peter Humphries | You need to show that $\sum_{k = 1}^{h_d} f_{Q_k}(\tau) = E^{\ast}(\tau,1/2,\chi_d)$, where the right-hand side is the completed Eisenstein series associated to $\chi_d$. | |
| Feb 16, 2021 at 0:46 | comment | added | Will Jagy | archive.org/details/in.ernet.dli.2015.466075/page/n1/mode/2up you can read it online; if it lets me I will post pages | |
| Feb 16, 2021 at 0:44 | history | edited | Peter Humphries | CC BY-SA 4.0 |
added 4 characters in body
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| Feb 16, 2021 at 0:13 | comment | added | Will Jagy | This is theorem 64 on pages 78-79 of Dickson, (1929) Introduction to the Theory of Numbers. On pages 80-81 he does $x^2 +y^2$ and some other class number one forms. There is a coefficient $w$ we now call the Tamagawa number, defined in theorem 59 on page 75 | |
| Feb 15, 2021 at 23:08 | history | asked | Shimrod | CC BY-SA 4.0 |