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→奇异吸引子
[[file:Lorenz_attractor_yb.svg.png|thumb|200px|right|洛伦兹奇异吸引子的图, ''ρ'' = 28, ''σ'' = 10, ''β'' = 8/3]]
[[file:Lorenz_attractor_yb.svg.png|thumb|200px|right|洛伦兹奇异吸引子的图, ''ρ'' = 28, ''σ'' = 10, ''β'' = 8/3]]
如果吸引子具有分形结构,则称为“奇异”。这种情况通常发生在在当它的动力学系统符合混沌理论时,但是奇异的非混沌吸引子也存在。如果一个奇异吸引子是混沌的,表现出对初始条件的敏感依赖性,那么在吸引子上两个任意接近的备选初始点经过多次迭代后,都会指向任意相距很远的点(受吸引子的限制),而在经历其他次数的迭代之后,会指向任意接近的点。因此,具有混沌吸引子的动态系统是局部不稳定但全局稳定的:一旦一些序列进入吸引子,附近的点就会发散,但不会离开。<ref>{{cite journal | author = Grebogi Celso, Ott Edward, Yorke James A | year = 1987 | title = Chaos, Strange Attractors, and Fractal Basin Boundaries in Nonlinear Dynamics | url = | journal = Science | volume = 238 | issue = 4827| pages = 632–638 | doi = 10.1126/science.238.4827.632 | pmid = 17816542 | bibcode = 1987Sci...238..632G }}</ref>
如果吸引子具有分形结构,则称为“奇异”。这种情况通常发生在在当它的动力学系统符合混沌理论时,但是奇异的非混沌吸引子也存在。如果一个奇异吸引子是混沌的,表现出对初始条件的敏感依赖性,那么在吸引子上两个任意接近的备选初始点经过多次迭代后,都会指向任意相距很远的点(受吸引子的限制),而在经历其他次数的迭代之后,会指向任意接近的点。因此,具有混沌吸引子的动态系统是局部不稳定但全局稳定的:一旦一些序列进入吸引子,附近的点就会发散,但不会离开。<ref>{{cite journal | author = Grebogi Celso, Ott Edward, Yorke James A | year = 1987 | title = Chaos, Strange Attractors, and Fractal Basin Boundaries in Nonlinear Dynamics | url = | journal = Science | volume = 238 | issue = 4827| pages = 632–638 | doi = 10.1126/science.238.4827.632}}</ref>
术语“奇异吸引子”由David Ruelle和Floris Takens提出,用来描述吸引子——产生于刻画流体的系统的一系列分叉。<ref>{{cite journal |last=Ruelle |first=David |last2=Takens |first2=Floris |date=1971 |title=On the nature of turbulence |url=http://projecteuclid.org/euclid.cmp/1103857186 |journal=Communications in Mathematical Physics |volume=20 |issue=3 |pages=167–192 |doi=10.1007/bf01646553}}</ref>奇异吸引子通常在几个方向上可微,但有些吸引子与康托尘类似,因此不可微。在噪声条件下,人们也能发现奇异吸引子,这可以用来支持Sinai-Ruelle-Bowen型的不变随机概率测度。<ref name="Stochastic climate dynamics: Random attractors and time-dependent invariant measures">{{cite journal|author1=Chekroun M. D. |author2=Simonnet E. |author3=Ghil M. |author-link3=Michael Ghil |name-list-style=amp |year = 2011 |title = Stochastic climate dynamics: Random attractors and time-dependent invariant measures |Examples of strange attractors include the double-scroll attractor, Hénon attractor, Rössler attractor, and Lorenz attractor. |journal = Physica D |volume = 240 |issue = 21 |pages = 1685–1700 |doi = 10.1016/j.physd.2011.06.005|citeseerx=10.1.1.156.5891 }}</ref>
术语“奇异吸引子”由David Ruelle和Floris Takens提出,用来描述吸引子——产生于刻画流体的系统的一系列分叉。<ref>{{cite journal |last=Ruelle |first=David |last2=Takens |first2=Floris |date=1971 |title=On the nature of turbulence |url=http://projecteuclid.org/euclid.cmp/1103857186 |journal=Communications in Mathematical Physics |volume=20 |issue=3 |pages=167–192 |doi=10.1007/bf01646553}}</ref>奇异吸引子通常在几个方向上可微,但有些吸引子与康托尘类似,因此不可微。在噪声条件下,人们也能发现奇异吸引子,这可以用来支持Sinai-Ruelle-Bowen型的不变随机概率测度。<ref name="Stochastic climate dynamics: Random attractors and time-dependent invariant measures">{{cite journal|author1=Chekroun M. D. |author2=Simonnet E. |author3=Ghil M. |author-link3=Michael Ghil |name-list-style=amp |year = 2011 |title = Stochastic climate dynamics: Random attractors and time-dependent invariant measures |journal = Physica D |volume = 240 |issue = 21 |pages = 1685–1700 |doi = 10.1016/j.physd.2011.06.005|citeseerx=10.1.1.156.5891 }}</ref>