"Talk on Rogers-Ramanujan identity"의 두 판 사이의 차이
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imported>Pythagoras0 잔글 (찾아 바꾸기 – “4909919” 문자열을 “” 문자열로) |
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==introduction== | ==introduction== | ||
| − | * | + | * {{수학노트|url=로저스-라마누잔_연분수}} |
| − | * | + | * {{수학노트|url=로저스_다이로그_함수_(Rogers'_dilogarithm)}} |
| + | :<math>L(x)=\operatorname{Li}_2(x)+\frac{1}{2}\log x\log (1-x)=-\frac{1}{2}\int_{0}^{x}\frac{\log(1-y)}{y}+\frac{\log(1-y)}{1-y}dy</math> | ||
| + | :<math>L(\frac{3-\sqrt{5}}{2})=\frac{\pi^2}{15}</math> | ||
| + | :<math>L(\frac{-1+\sqrt{5}}{2})=\frac{\pi^2}{10}</math> | ||
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| − | * <math>q=e^{-t}</math> | + | * <math>q=e^{-t}</math> 으로 두면 <math>t\sim 0</math> 일 때, |
| − | * '''[McIntosh1995]''' | + | :<math>H(q)=\sum_{n=0}^\infty \frac {q^{n^2+n}} {(q;q)_n} \sim \sqrt\frac{2}{5+\sqrt{5}}\exp(\frac{\pi^2}{15t}+\frac{11t}{60})+o(1)</math> |
| − | * | + | :<math>G(q)=\sum_{n=0}^\infty \frac {q^{n^2}} {(q;q)_n} \sim \sqrt\frac{2}{5-\sqrt{5}}\exp(\frac{\pi^2}{15t}-\frac{t}{60})+o(1)</math> |
| + | * '''[McIntosh1995]''' 참조 | ||
| + | * 이로부터 다음을 알 수 있다<math>t\to 0</math> 일 때, <math>q=e^{-t}\to 1</math> 으로 두면 | ||
| + | :<math>\frac{H(1)}{G(1)} = \sqrt{\frac{5-\sqrt{5}}{5+\sqrt{5}}}=\varphi-1=0.618\cdots</math> | ||
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| − | + | :<math>r(\tau)=q^{\frac{1}{5}} \frac{H(q)}{G(q)} = \cfrac{q^{\frac{1}{5}}}{1+\cfrac{q}{1+\cfrac{q^2}{1+\cfrac{q^3}{1+\cdots}}}}</math> | |
| + | :<math>r(0)= \sqrt{\frac{5-\sqrt{5}}{5+\sqrt{5}}}=\varphi-1=0.618\cdots</math> | ||
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==related items== | ==related items== | ||
| − | * [[asymptotic analysis of basic hypergeometric series]] | + | * [[asymptotic analysis of basic hypergeometric series]] |
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[[분류:개인노트]] | [[분류:개인노트]] | ||
[[분류:talks]] | [[분류:talks]] | ||
[[분류:talks and lecture notes]] | [[분류:talks and lecture notes]] | ||
2013년 7월 14일 (일) 05:00 판
introduction
\[L(x)=\operatorname{Li}_2(x)+\frac{1}{2}\log x\log (1-x)=-\frac{1}{2}\int_{0}^{x}\frac{\log(1-y)}{y}+\frac{\log(1-y)}{1-y}dy\] \[L(\frac{3-\sqrt{5}}{2})=\frac{\pi^2}{15}\] \[L(\frac{-1+\sqrt{5}}{2})=\frac{\pi^2}{10}\]
- \(q=e^{-t}\) 으로 두면 \(t\sim 0\) 일 때,
\[H(q)=\sum_{n=0}^\infty \frac {q^{n^2+n}} {(q;q)_n} \sim \sqrt\frac{2}{5+\sqrt{5}}\exp(\frac{\pi^2}{15t}+\frac{11t}{60})+o(1)\] \[G(q)=\sum_{n=0}^\infty \frac {q^{n^2}} {(q;q)_n} \sim \sqrt\frac{2}{5-\sqrt{5}}\exp(\frac{\pi^2}{15t}-\frac{t}{60})+o(1)\]
- [McIntosh1995] 참조
- 이로부터 다음을 알 수 있다\(t\to 0\) 일 때, \(q=e^{-t}\to 1\) 으로 두면
\[\frac{H(1)}{G(1)} = \sqrt{\frac{5-\sqrt{5}}{5+\sqrt{5}}}=\varphi-1=0.618\cdots\]
\[r(\tau)=q^{\frac{1}{5}} \frac{H(q)}{G(q)} = \cfrac{q^{\frac{1}{5}}}{1+\cfrac{q}{1+\cfrac{q^2}{1+\cfrac{q^3}{1+\cdots}}}}\]
\[r(0)= \sqrt{\frac{5-\sqrt{5}}{5+\sqrt{5}}}=\varphi-1=0.618\cdots\]