chaosbook:maps
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chaosbook:maps [2009/02/11 13:48] 127.0.0.1 external edit |
chaosbook:maps [2014/12/03 09:14] (current) predrag [Section: Poincaré sections] |
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| (ChaosBook.org blog, chapter [[http://chaosbook.org/paper.shtml#maps|Discrete time dynamics]]) --- //[[predrag.cvitanovic@physics.gatech.edu|Predrag Cvitanovic]] 2009-02-11 12:55// | (ChaosBook.org blog, chapter [[http://chaosbook.org/paper.shtml#maps|Discrete time dynamics]]) --- //[[predrag.cvitanovic@physics.gatech.edu|Predrag Cvitanovic]] 2009-02-11 12:55// | ||
| - | ===== Poincaré sections ===== | + | ===== Section: Poincaré sections ===== |
| {{gtspring2009:pc.jpg }} If GaTech world domination is to be maintained, we need to start taking Poincaré sections of unstable manifolds. Make sure you understand chapters on [[http://chaosbook.org/paper.shtml#maps|Discrete time dynamics]], [[http://chaosbook.org/paper.shtml#stability|Local stability]] and [[http://chaosbook.org/paper.shtml#invariants|Cycle stability]]. --- //[[predrag.cvitanovic@physics.gatech.edu|Predrag Cvitanovic]] 2009-02-11 12:55// | {{gtspring2009:pc.jpg }} If GaTech world domination is to be maintained, we need to start taking Poincaré sections of unstable manifolds. Make sure you understand chapters on [[http://chaosbook.org/paper.shtml#maps|Discrete time dynamics]], [[http://chaosbook.org/paper.shtml#stability|Local stability]] and [[http://chaosbook.org/paper.shtml#invariants|Cycle stability]]. --- //[[predrag.cvitanovic@physics.gatech.edu|Predrag Cvitanovic]] 2009-02-11 12:55// | ||
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| - | :-| I've read through the stuff Predrag mentioned online, and some of it is familiar and understandable, and some of it I'm not clear on (I'm most concerned about the stuff regarding Poincare sections, since that seemed to be what you were mainly interested in us reading about). Can we discuss it a little at the next meeting? //[[jshyatt@gatech.edu|John Hyatt]] 2009-02-10 13:04// | ||
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| - | {{gtspring2009:pc.jpg?10 }} Let's do it Feb 24 --- //[[predrag.cvitanovic@physics.gatech.edu|Predrag Cvitanovic]] 2009-02-10 23:12// | ||
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| - | {{gtspring2009:gibson.png?10}} The study group did meet yesterday. Alex Grigo went over stability of maps and orbits and how they're related through Poincare sections. //John Gibson 2009-02-11 9:46 EST// | ||
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| {{gtspring2009:pc.jpg }} Constructing Poincaré sections and return (or forward) maps is not such a big deal - it's just that no masters of plumbing listen to my pleas. **Jul 6 2006** I got Halcrow to give it a try: | {{gtspring2009:pc.jpg }} Constructing Poincaré sections and return (or forward) maps is not such a big deal - it's just that no masters of plumbing listen to my pleas. **Jul 6 2006** I got Halcrow to give it a try: | ||
| - | {{:intro:returntimevsperturbation.png|}} | + | {{chaosbook:intro:returntimevsperturbation.png|}} |
| Poincaré return time to first intersection with a Poincaré section, normal to one of the eigenvectors corresponding to the most unstable complex pair of eigenvalues of the upper branch. | Poincaré return time to first intersection with a Poincaré section, normal to one of the eigenvectors corresponding to the most unstable complex pair of eigenvalues of the upper branch. | ||
| ~~CL~~ | ~~CL~~ | ||
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| With Y. Lan I had a bit more luck. He resisted for 6 years or so, but than his wife told him that thesis should be finished this semester and he relented. His Kuramoto-Sivashinsky ("fluid dynamics" in one dimension) plots all like the usual nonlinear garbage: | With Y. Lan I had a bit more luck. He resisted for 6 years or so, but than his wife told him that thesis should be finished this semester and he relented. His Kuramoto-Sivashinsky ("fluid dynamics" in one dimension) plots all like the usual nonlinear garbage: | ||
| - | {{:intro:antorb1b.png|}} projected on random coordinates (first Fourier modes) until he relented and plotted the unstable manifold of the "upper branch," | + | {{chaosbook:intro:antorb1b.png|}} projected on random coordinates (first Fourier modes) until he relented and plotted the unstable manifold of the "upper branch," |
| - | {{:intro:ant5man12.png|}} and relented even further and plotted the <latex>D_1</latex> discrete symmetry quotiented return map: | + | {{chaosbook:intro:ant5man12.png|}} and relented even further and plotted the <latex>D_1</latex> discrete symmetry quotiented return map: |
| - | {{:intro:ant5mmppf.png|}} And - (the mystery hidden from human eye by being written in the ChaosBook!) - very many periodic orbits followed, labeled by a ternary alphabet. | + | {{chaosbook:intro:ant5mmppf.png|}} And - (the mystery hidden from human eye by being written in the ChaosBook!) - very many periodic orbits followed, labeled by a ternary alphabet. |
| So I know you can do it, if you get your mind to it. | So I know you can do it, if you get your mind to it. | ||
chaosbook/maps.1234388933.txt.gz · Last modified: 2009/02/12 17:09 (external edit)
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