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imported>Pythagoras0 |
Pythagoras0 (토론 | 기여) |
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==introduction== | ==introduction== | ||
− | * one of important question in 2d percolation is the calculation of power-law exponent for boostrap percolation | + | * one of important question in 2d percolation is the calculation of power-law exponent for boostrap percolation |
− | * this is related to the theory of partitions without k-gaps | + | * this is related to the theory of partitions without k-gaps |
8번째 줄: | 8번째 줄: | ||
==bootstrap percolation== | ==bootstrap percolation== | ||
− | * growth rule | + | * growth rule |
− | * http://www.math.ubc.ca/~holroyd/boot/ | + | * http://www.math.ubc.ca/~holroyd/boot/ |
− | * http://mathworld.wolfram.com/BootstrapPercolation.html | + | * http://mathworld.wolfram.com/BootstrapPercolation.html |
19번째 줄: | 19번째 줄: | ||
==partitions without k-gaps== | ==partitions without k-gaps== | ||
− | * partitions without k-gaps (or k-sequences) | + | * partitions without k-gaps (or k-sequences) |
− | * p_k(n) is the number of partitions of n that do not contain any sequence of consecutive integers of length k. p_2 (7) = 8. | + | * p_k(n) is the number of partitions of n that do not contain any sequence of consecutive integers of length k. p_2 (7) = 8. |
− | * examples: partition of 7 | + | * examples: partition of 7 {{7},{6,1},{5,2},{5,1,1},{4,3},{4,2,1},{4,1,1,1},{3,3,1},{3,2,2},{3,2,1,1},{3,1,1,1,1},{2,2,2,1},{2,2,1,1,1},{2,1,1,1,1,1},{1,1,1,1,1,1,1}} 7, 6 + 1, 5 + 2, 5 + 1 + 1, 4 + 1 + 1 + 1, 3 + 3 + 1, 3 + 1 + 1 + 1 + 1, and 1 + 1 + 1 + 1 + 1 + 1 + 1. so there are 8 partitions without 2-gaps |
− | * Anderew's result | + | * Anderew's result |
− | ** generating function for partitions without k-gaps | + | ** generating function for partitions without k-gaps<math>G_2(q)=1+\sum_{n=1}^{\infty}\frac{q^n\prod_{j=1}^{n-1}(1-q^j+q^{2j})}{(q;q)_n}</math>[http://www.research.att.com/%7Enjas/sequences/A116931 A116931] |
− | # (*define a gap as 'b' *) | + | # (*define a gap as 'b' *) b := 2 G[b_, x_] := Sum[x^k*Product[1 + x^(b*j)/(1 - x^j), {j, 1, k - 1}]/(1 - x^k), {k, 1, 30}] Series[G[b, x], {x, 0, 20}] Table[SeriesCoefficient[%, n], {n, 0, 20}] |
− | * [[3 q-series|q-series]] | + | * [[3 q-series|q-series]] |
35번째 줄: | 35번째 줄: | ||
==q-series from percolation== | ==q-series from percolation== | ||
− | * definition | + | * definition<math>P_k(q)=(q;q)_{\infty}G_k(q)</math> |
− | * Andrews and Zagier expression of <math>P_k(q)</math | + | * Andrews and Zagier expression of <math>P_k(q)</math> |
− | * result of '''[HLR04]''' | + | * result of '''[HLR04]''' if <math>q=e^{-t}</math> and <math>t\sim 0</math><math>P_k(q) \sim \frac{-\lambda_k}{1-q}</math> as <math>q \to 1</math> |
45번째 줄: | 45번째 줄: | ||
==Andrews' conjecture on asymptotics== | ==Andrews' conjecture on asymptotics== | ||
− | * asymptotics of P_2(q) is known | + | * asymptotics of P_2(q) is known <math>q=e^{-t}</math> 으로 두면 <math>t\sim 0</math> 일 때,<math>P_2(q) \sim \sqrt\frac{2\pi}{t}\exp(-\frac{\pi^2}{18t})</math> |
− | * conjecture | + | * conjecture<math>P_k(q) \sim \sqrt\frac{2\pi}{t}\exp(-\frac{\lambda_k}{t})</math> where <math>\lambda_k=\frac{\pi^2}{3k(k+1)}</math> |
54번째 줄: | 54번째 줄: | ||
==tricky integrals== | ==tricky integrals== | ||
− | * Henrik Eriksson: [http://www.math.ubc.ca/~holroyd/integral.pdf A Tricky Integral] | + | * Henrik Eriksson: [http://www.math.ubc.ca/~holroyd/integral.pdf A Tricky Integral]<math>f_1(x)=1-x</math><math>f_2(x)=\frac{1-x+\sqrt{(1-x)(1+3x)}}{2}</math> |
− | * <math>\lambda_k=\frac{\pi^2}{3k(k+1)}</math | + | * <math>\lambda_k=\frac{\pi^2}{3k(k+1)}</math> |
* <math>\lambda_2=\frac{\pi^2}{18}</math> | * <math>\lambda_2=\frac{\pi^2}{18}</math> | ||
64번째 줄: | 64번째 줄: | ||
==relevance to dedekind eta function== | ==relevance to dedekind eta function== | ||
− | * Dedekind eta function ([http://pythagoras0.springnote.com/pages/3325777 데데킨트 에타함수]) | + | * Dedekind eta function ([http://pythagoras0.springnote.com/pages/3325777 데데킨트 에타함수])<math>q=e^{-t}</math> 으로 두면 <math>t\sim 0</math> 일 때,<math>\prod_{n=1}^{\infty}(1-q^n)=1+\sum_{n\geq 1}^{\infty}\frac{(-1)^nq^{n(n+1)/2}}{(q)_n}\sim \sqrt\frac{2\pi}{t}\exp(-\frac{\pi^2}{6t})</math> more generally, <math>q=\exp(\frac{2\pi ih}{k})e^{-t}</math> and <math>t\to 0</math> implies<math>\sqrt{\frac{t}{2\pi}}\exp({\frac{\pi^2}{6k^2t}})\eta(\frac{h}{k}+i\frac{t}{2\pi})\sim \frac{\exp\left(\pi i (\frac{h}{12k}-s(h,k)\right)}{\sqrt{k}}</math> |
80번째 줄: | 80번째 줄: | ||
==related items== | ==related items== | ||
− | * [[asymptotic analysis of basic hypergeometric series]] | + | * [[asymptotic analysis of basic hypergeometric series]] |
− | * [[examples of mock theta functions|Ramanujan's mock theta functions]] | + | * [[examples of mock theta functions|Ramanujan's mock theta functions]] |
101번째 줄: | 101번째 줄: | ||
− | * [[2010년 books and articles]] | + | * [[2010년 books and articles]] |
* http://gigapedia.info/1/ | * http://gigapedia.info/1/ | ||
* http://gigapedia.info/1/ | * http://gigapedia.info/1/ | ||
114번째 줄: | 114번째 줄: | ||
==articles== | ==articles== | ||
− | * [http://arxiv.org/abs/1002.3881 A sharper threshold for bootstrap percolation in two dimensions] | + | * [http://arxiv.org/abs/1002.3881 A sharper threshold for bootstrap percolation in two dimensions] |
** [http://arxiv.org/abs/1002.3881 ]Janko Gravner, Alexander E. Holroyd, Robert Morris, 2010 | ** [http://arxiv.org/abs/1002.3881 ]Janko Gravner, Alexander E. Holroyd, Robert Morris, 2010 | ||
− | * [http://arxiv.org/abs/1001.1977 Improved bounds on metastability thresholds and probabilities for generalized bootstrap percolation] | + | * [http://arxiv.org/abs/1001.1977 Improved bounds on metastability thresholds and probabilities for generalized bootstrap percolation] |
− | ** [http://arxiv.org/find/math/1/au:+Bringmann_K/0/1/0/all/0/1 Kathrin Bringmann], [http://arxiv.org/find/math/1/au:+Mahlburg_K/0/1/0/all/0/1 Karl Mahlburg], 2010 | + | ** [http://arxiv.org/find/math/1/au:+Bringmann_K/0/1/0/all/0/1 Kathrin Bringmann], [http://arxiv.org/find/math/1/au:+Mahlburg_K/0/1/0/all/0/1 Karl Mahlburg], 2010 |
− | * [http://dx.doi.org/10.1016/j.jcta.2006.06.010 Integrals, partitions and MacMahon's Theorem] | + | * [http://dx.doi.org/10.1016/j.jcta.2006.06.010 Integrals, partitions and MacMahon's Theorem] |
− | ** George Andrewsa, Dan Romik, 2007 | + | ** George Andrewsa, Dan Romik, 2007 |
− | * Slow convergence | + | * Slow convergence |
− | * [http://www.pnas.org/content/102/13/4666.full Partitions with short sequences and mock theta functions] | + | * [http://www.pnas.org/content/102/13/4666.full Partitions with short sequences and mock theta functions] |
− | ** George E. Andrews, 2005 | + | ** George E. Andrews, 2005 |
− | * '''[HLR04]'''[http://research.microsoft.com/en-us/um/people/holroyd/papers/int.pdf Integrals, Partitions, and Cellular Automata] | + | * '''[HLR04]'''[http://research.microsoft.com/en-us/um/people/holroyd/papers/int.pdf Integrals, Partitions, and Cellular Automata] |
− | ** A. E. Holroyd, T. M. Liggett & D. Romik, Transactions of the American Mathematical Society, 2004, Vol 356, 3349-3368 | + | ** A. E. Holroyd, T. M. Liggett & D. Romik, Transactions of the American Mathematical Society, 2004, Vol 356, 3349-3368 |
− | * [http://www.springerlink.com/content/g420hc5h6qu6e65x/ sharp metastability threshold for two-dimensional bootstrap percolation] | + | * [http://www.springerlink.com/content/g420hc5h6qu6e65x/ sharp metastability threshold for two-dimensional bootstrap percolation] |
− | ** Alexander E. Holroyd, 2003 | + | ** Alexander E. Holroyd, 2003 |
* [[2010년 books and articles|논문정리]] | * [[2010년 books and articles|논문정리]] | ||
152번째 줄: | 152번째 줄: | ||
==blogs== | ==blogs== | ||
− | * 구글 블로그 검색 | + | * 구글 블로그 검색 |
** http://blogsearch.google.com/blogsearch?q= | ** http://blogsearch.google.com/blogsearch?q= | ||
** http://blogsearch.google.com/blogsearch?q= | ** http://blogsearch.google.com/blogsearch?q= |
2020년 11월 13일 (금) 18:25 판
introduction
- one of important question in 2d percolation is the calculation of power-law exponent for boostrap percolation
- this is related to the theory of partitions without k-gaps
bootstrap percolation
- growth rule
- http://www.math.ubc.ca/~holroyd/boot/
partitions without k-gaps
- partitions without k-gaps (or k-sequences)
- p_k(n) is the number of partitions of n that do not contain any sequence of consecutive integers of length k. p_2 (7) = 8.
- examples: partition of 7 {{7},{6,1},{5,2},{5,1,1},{4,3},{4,2,1},{4,1,1,1},{3,3,1},{3,2,2},{3,2,1,1},{3,1,1,1,1},{2,2,2,1},{2,2,1,1,1},{2,1,1,1,1,1},{1,1,1,1,1,1,1}} 7, 6 + 1, 5 + 2, 5 + 1 + 1, 4 + 1 + 1 + 1, 3 + 3 + 1, 3 + 1 + 1 + 1 + 1, and 1 + 1 + 1 + 1 + 1 + 1 + 1. so there are 8 partitions without 2-gaps
- Anderew's result
- generating function for partitions without k-gaps\(G_2(q)=1+\sum_{n=1}^{\infty}\frac{q^n\prod_{j=1}^{n-1}(1-q^j+q^{2j})}{(q;q)_n}\)A116931
- (*define a gap as 'b' *) b := 2 G[b_, x_] := Sum[x^k*Product[1 + x^(b*j)/(1 - x^j), {j, 1, k - 1}]/(1 - x^k), {k, 1, 30}] Series[G[b, x], {x, 0, 20}] Table[SeriesCoefficient[%, n], {n, 0, 20}]
q-series from percolation
- definition\(P_k(q)=(q;q)_{\infty}G_k(q)\)
- Andrews and Zagier expression of \(P_k(q)\)
- result of [HLR04] if \(q=e^{-t}\) and \(t\sim 0\)\(P_k(q) \sim \frac{-\lambda_k}{1-q}\) as \(q \to 1\)
Andrews' conjecture on asymptotics
- asymptotics of P_2(q) is known \(q=e^{-t}\) 으로 두면 \(t\sim 0\) 일 때,\(P_2(q) \sim \sqrt\frac{2\pi}{t}\exp(-\frac{\pi^2}{18t})\)
- conjecture\(P_k(q) \sim \sqrt\frac{2\pi}{t}\exp(-\frac{\lambda_k}{t})\) where \(\lambda_k=\frac{\pi^2}{3k(k+1)}\)
tricky integrals
- Henrik Eriksson: A Tricky Integral\(f_1(x)=1-x\)\(f_2(x)=\frac{1-x+\sqrt{(1-x)(1+3x)}}{2}\)
- \(\lambda_k=\frac{\pi^2}{3k(k+1)}\)
- \(\lambda_2=\frac{\pi^2}{18}\)
relevance to dedekind eta function
- Dedekind eta function (데데킨트 에타함수)\(q=e^{-t}\) 으로 두면 \(t\sim 0\) 일 때,\(\prod_{n=1}^{\infty}(1-q^n)=1+\sum_{n\geq 1}^{\infty}\frac{(-1)^nq^{n(n+1)/2}}{(q)_n}\sim \sqrt\frac{2\pi}{t}\exp(-\frac{\pi^2}{6t})\) more generally, \(q=\exp(\frac{2\pi ih}{k})e^{-t}\) and \(t\to 0\) implies\(\sqrt{\frac{t}{2\pi}}\exp({\frac{\pi^2}{6k^2t}})\eta(\frac{h}{k}+i\frac{t}{2\pi})\sim \frac{\exp\left(\pi i (\frac{h}{12k}-s(h,k)\right)}{\sqrt{k}}\)
history
encyclopedia
books
- 2010년 books and articles
- http://gigapedia.info/1/
- http://gigapedia.info/1/
- http://www.amazon.com/s/ref=nb_ss_gw?url=search-alias%3Dstripbooks&field-keywords=
articles
- A sharper threshold for bootstrap percolation in two dimensions
- [1]Janko Gravner, Alexander E. Holroyd, Robert Morris, 2010
- Improved bounds on metastability thresholds and probabilities for generalized bootstrap percolation
- Kathrin Bringmann, Karl Mahlburg, 2010
- Integrals, partitions and MacMahon's Theorem
- George Andrewsa, Dan Romik, 2007
- Slow convergence
- Partitions with short sequences and mock theta functions
- George E. Andrews, 2005
- [HLR04]Integrals, Partitions, and Cellular Automata
- A. E. Holroyd, T. M. Liggett & D. Romik, Transactions of the American Mathematical Society, 2004, Vol 356, 3349-3368
- sharp metastability threshold for two-dimensional bootstrap percolation
- Alexander E. Holroyd, 2003
- 논문정리
- http://www.ams.org/mathscinet
- http://www.zentralblatt-math.org/zmath/en/
- http://pythagoras0.springnote.com/
- http://math.berkeley.edu/~reb/papers/index.html[2]
- http://front.math.ucdavis.edu/search?a=&t=&c=&n=40&s=Listings&q=
- http://www.ams.org/mathscinet/search/publications.html?pg4=AUCN&s4=&co4=AND&pg5=TI&s5=&co5=AND&pg6=PC&s6=&co6=AND&pg7=ALLF&co7=AND&Submit=Search&dr=all&yrop=eq&arg3=&yearRangeFirst=&yearRangeSecond=&pg8=ET&s8=All&s7=
- http://dx.doi.org/
question and answers(Math Overflow)
blogs
experts on the field