"아페리(Apéry) 점화식"의 두 판 사이의 차이
Pythagoras0 (토론 | 기여) |
Pythagoras0 (토론 | 기여) |
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| 55번째 줄: | 55번째 줄: | ||
\end{array} | \end{array} | ||
$$ | $$ | ||
| + | * $A_n$의 점근 급수는 다음과 같이 주어진다 | ||
| + | $$ | ||
| + | (17+12 \sqrt{2})^n n^{-3/2} \sum _{s=0}^{\infty } \frac{c_{1,s}}{n^s}+(17-12 \sqrt{2})^n n^{-3/2} \sum _{s=0}^{\infty } \frac{c_{2,s}}{n^s} | ||
| + | $$ | ||
| + | 여기서 $c_{1,s},c_{2,s}$는 적당한 상수이며, | ||
| + | $$c_{1,0}=\frac{3+2 \sqrt{2}}{\pi ^{3/2} \left(4 \sqrt[4]{2}\right)}, \quad c_{2,0}=\frac{3-2 \sqrt{2}}{\pi ^{3/2} \left(4 \sqrt[4]{2}\right)}$$ | ||
| + | |||
===아페리의 정리=== | ===아페리의 정리=== | ||
* $A_n\in \mathbb{Z}$ | * $A_n\in \mathbb{Z}$ | ||
| 76번째 줄: | 83번째 줄: | ||
==관련논문== | ==관련논문== | ||
* Zagier, Don. 2009. “Integral Solutions of Apéry-like Recurrence Equations.” In Groups and Symmetries, 47:349–366. CRM Proc. Lecture Notes. Providence, RI: Amer. Math. Soc. http://people.mpim-bonn.mpg.de/zagier/files/tex/AperylikeRecEqs/fulltext.pdf | * Zagier, Don. 2009. “Integral Solutions of Apéry-like Recurrence Equations.” In Groups and Symmetries, 47:349–366. CRM Proc. Lecture Notes. Providence, RI: Amer. Math. Soc. http://people.mpim-bonn.mpg.de/zagier/files/tex/AperylikeRecEqs/fulltext.pdf | ||
| + | * Garoufalidis, Stavros. 2007. “An Ansatz for the Asymptotics of Hypergeometric Multisums.” arXiv:0706.0722 (June 5). http://arxiv.org/abs/0706.0722. | ||
* Beukers, Frits. 2002. “On Dwork’s Accessory Parameter Problem.” Mathematische Zeitschrift 241 (2): 425–444. doi:10.1007/s00209-002-0424-8. | * Beukers, Frits. 2002. “On Dwork’s Accessory Parameter Problem.” Mathematische Zeitschrift 241 (2): 425–444. doi:10.1007/s00209-002-0424-8. | ||
* McIntosh, Richard J. 1996. “An Asymptotic Formula for Binomial Sums.” Journal of Number Theory 58 (1) (May): 158–172. doi:10.1006/jnth.1996.0072. | * McIntosh, Richard J. 1996. “An Asymptotic Formula for Binomial Sums.” Journal of Number Theory 58 (1) (May): 158–172. doi:10.1006/jnth.1996.0072. | ||
2013년 3월 28일 (목) 13:25 판
개요
- Ζ(3)는 무리수이다(아페리의 정리)의 증명에서 등장한 선형점화식
- 무리수와 디오판투스 근사의 예
$\zeta(2)$
- 다음 점화식을 생각하자
$$ n^2 u_{n}-(11n^2-11n+3)u_{n-1}-(n-1)^2u_{n-2}=0 \label{z2} $$
- 수열 $A_n$과 $B_n$을 초기조건이 다음과 같이 주어진 점화식 \ref{z2}의 해라 하자
- $A_0=1, A_1=3, B_0=0, B_1=1$
$$ \begin{array}{cccc} \text{} & A_n & B_n & B_n/A_n \\ 0 & 1 & 0 & 0 \\ 1 & 3 & 1 & 0.3333333333 \\ 2 & 19 & \frac{25}{4} & 0.3289473684 \\ 3 & 147 & \frac{1741}{36} & 0.3289871504 \\ 4 & 1251 & \frac{6585}{16} & 0.3289868106 \\ 5 & 11253 & \frac{13327519}{3600} & 0.3289868134 \\ 6 & 104959 & \frac{124308457}{3600} & 0.3289868134 \\ 7 & 1004307 & \frac{19427741063}{58800} & 0.3289868134 \\ 8 & 9793891 & \frac{2273486234953}{705600} & 0.3289868134 \\ 9 & 96918753 & \frac{202482451324891}{6350400} & 0.3289868134 \\ \end{array} $$
아페리의 정리
- $A_n\in \mathbb{Z}$
- $D_n^2 B_n \in \mathbb{Z}$ 여기서 $D_n\approx e^n$은 1부터 n까지의 최소공배수
- $\lim_{n\to \infty} \frac{B_n}{A_n} = \frac{1}{5}\zeta(2)$
- $|\frac{B_n}{A_n} -\frac{1}{5}\zeta(2)|= O(\lambda^{-2n})$ 여기서 $\lambda=(\frac{1+\sqrt{5}}{2})^5$
$\zeta(3)$
- 다음 점화식을 생각하자
$$ n^3u_n-(34 n^3 - 51 n^2 + 27 n - 5)u_{n-1}+(n-1)^3u_{n-2}=0\label{z3} $$
- 수열 $A_n$과 $B_n$을 초기조건이 다음과 같이 주어진 점화식 \ref{z3}의 해라 하자
- $A_0=1, A_1=5, B_0=0, B_1=1$
$$ \begin{array}{cccc} \text{} & A_n & B_n & B_n/A_n \\ 0 & 1 & 0 & 0 \\ 1 & 5 & 1 & 0.2000000000 \\ 2 & 73 & \frac{117}{8} & 0.2003424658 \\ 3 & 1445 & \frac{62531}{216} & 0.2003428169 \\ 4 & 33001 & \frac{11424695}{1728} & 0.2003428172 \\ 5 & 819005 & \frac{35441662103}{216000} & 0.2003428172 \\ 6 & 21460825 & \frac{20637706271}{4800} & 0.2003428172 \\ 7 & 584307365 & \frac{963652602684713}{8232000} & 0.2003428172 \\ 8 & 16367912425 & \frac{43190915887542721}{13171200} & 0.2003428172 \\ 9 & 468690849005 & \frac{1502663969043851254939}{16003008000} & 0.2003428172 \\ \end{array} $$
- $A_n$의 점근 급수는 다음과 같이 주어진다
$$ (17+12 \sqrt{2})^n n^{-3/2} \sum _{s=0}^{\infty } \frac{c_{1,s}}{n^s}+(17-12 \sqrt{2})^n n^{-3/2} \sum _{s=0}^{\infty } \frac{c_{2,s}}{n^s} $$ 여기서 $c_{1,s},c_{2,s}$는 적당한 상수이며, $$c_{1,0}=\frac{3+2 \sqrt{2}}{\pi ^{3/2} \left(4 \sqrt[4]{2}\right)}, \quad c_{2,0}=\frac{3-2 \sqrt{2}}{\pi ^{3/2} \left(4 \sqrt[4]{2}\right)}$$
아페리의 정리
- $A_n\in \mathbb{Z}$
- $D_n^3 B_n \in \mathbb{Z}$ 여기서 $D_n\approx e^n$은 1부터 n까지의 최소공배수
- $\lim_{n\to \infty} \frac{B_n}{A_n} = \frac{1}{6}\zeta(3)$
- $|\frac{B_n}{A_n} -\frac{1}{6}\zeta(3)|= O(\lambda^{-2n})$ 여기서 $\lambda=\left(1+\sqrt{2}\right)^4$
점화식
- $n^2 u_{n}-(An^2-An+\lambda)u_{n-1}+B(n-1)^2u_{n-2}=0$ 꼴의 선형 점화식
- $n^2 u_{n}-(7n^2-7n+2)u_{n-1}+8(n-1)^2u_{n-2}=0$
- $n^2 u_{n}-(11n^2-11n+3)u_{n-1}-(n-1)^2u_{n-2}=0$
관련된 항목들
관련논문
- Zagier, Don. 2009. “Integral Solutions of Apéry-like Recurrence Equations.” In Groups and Symmetries, 47:349–366. CRM Proc. Lecture Notes. Providence, RI: Amer. Math. Soc. http://people.mpim-bonn.mpg.de/zagier/files/tex/AperylikeRecEqs/fulltext.pdf
- Garoufalidis, Stavros. 2007. “An Ansatz for the Asymptotics of Hypergeometric Multisums.” arXiv:0706.0722 (June 5). http://arxiv.org/abs/0706.0722.
- Beukers, Frits. 2002. “On Dwork’s Accessory Parameter Problem.” Mathematische Zeitschrift 241 (2): 425–444. doi:10.1007/s00209-002-0424-8.
- McIntosh, Richard J. 1996. “An Asymptotic Formula for Binomial Sums.” Journal of Number Theory 58 (1) (May): 158–172. doi:10.1006/jnth.1996.0072.
- Wimp, Jet, and Doron Zeilberger. 1985. “Resurrecting the Asymptotics of Linear Recurrences.” Journal of Mathematical Analysis and Applications 111 (1) (October): 162–176. doi:10.1016/0022-247X(85)90209-4.
- A. van der Poorten A proof that Euler missed ... Apéry's Proof of the irrationality of $\zeta(3)$, The Mathematical Intelligencer 1 (4): 195-203, 1979