"Q-series 의 공식 모음"의 두 판 사이의 차이

개요

• 합공식의 q-analogue
  

\(\lim_{z\to\infty}\frac{(z)_{n}}{z^{n}}=(-1)^{n}q^{\frac{n(n-1)}{2}}\)

\((q^{l+1};q)_{n}=\frac{(q;q)_{n+l}}{(q;q)_{l}}\) or \((q^{l};q)_{n}=\frac{(q;q)_{n+l-1}}{(q;q)_{l-1}}\)

\(l\geq n\), \((q^{-l};q)_{n}=(-1)^nq^{n(n-1)/2-nl}(q^{l-n+1};q)_n=(-1)^nq^{n(n-1)/2-nl}\frac{(q;q)_{l}}{(q;q)_{l-n}}\)

\((-q)_{n}=\frac{(q^2;q^2)_{n}}{(q;q)_{n}}\)

\((-q;q)_{2n+1}=(-q)_{2n}(1+q^{2n+1})=\frac{(q^2;q^4)_{n}(q^4;q^4)_{n}}{(q;q^2)_{n}(q^2;q^2)_{n}}(1+q^{2n+1})\)

\((q)_{2n}=(q;q^2)_{n}(q^2;q^2)_{n}\)

\((-q)_{2n}=\frac{(q^2;q^2)_{2n}}{(q;q)_{2n}}=\frac{(q^2;q^4)_{n}(q^4;q^4)_{n}}{(q;q^2)_{n}(q^2;q^2)_{n}}\)

\(\frac{(-q)_{n}}{(q)_{2n}}=\frac{1}{(q;q^2)_{n}(q;q)_{n}}\)

\((a)_{n+r}=(a)_{n}(aq^{n})_{r}\)

\((-q;q^{2})_{n}=\frac{(-q;q)_{n}}{(-q^{2};q^{2})_{n}}=\frac{(q^{2};q^{2})_{n}(q^{2};q^{2})_{n}}{(q^{4};q^{4})_{n}(q;q)_{n}}=\frac{(q^{2};q^{4})_{n}}{(q^{1};q^{4})_{n}(q^{3};q^{4})_{n}}\)

\((-q^2;q^{2})_{n}=\frac{(q^4;q^4)_{n}}{(q^2;q^2)_{n}}=\frac{1}{(q^2;q^4)_{n}}\)

\(W(q)=(-q)_{\infty}=\sum_{n\geq 0}\frac{q^{n(n+1)/2}}{(q)_{n}}=\frac{(q^{2};q^{2})_{\infty}}{(q;q)_{\infty}}\)

q-이항정리

• q-이항정리
  
•  
  가우스 공식\[\prod_{r=0}^{n-1}(1+zq^r)=(1+z)(1+zq)\cdots(1+zq^{n-1})= \sum_{r=0}^{n} \begin{bmatrix} n\\ r\end{bmatrix}_{q}q^{r(r-1)/2}z^r\]
  
• 하이네 공식\[\prod_{r=0}^{n-1}\frac{1}{1-zq^r}=\sum_{r=0}^{\infty} \begin{bmatrix} n+r-1\\ r\end{bmatrix}_{q} z^r\]
  

무한곱 공식

• 자코비 삼중곱(Jacobi triple product)\[\sum_{n=-\infty}^\infty z^{n}q^{n^2}= \prod_{m=1}^\infty \left( 1 - q^{2m}\right) \left( 1 + zq^{2m-1}\right) \left( 1 + z^{-1}q^{2m-1}\right)\]
  
• quintuple product identity
  

역사

• http://www.google.com/search?hl=en&tbs=tl:1&q=
• 수학사 연표

메모

• Math Overflow http://mathoverflow.net/search?q=

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