Periodic orbits in time-dependent planar Stark-Zeeman systems
Time-dependent Stark-Zeeman systems describe the motion of an electron attracted by a proton subject to a magnetic and a time-dependent electric field. For instance the study of the dynamics of a gateway around the moon which is subject to the joint attraction of the moon, the earth and the sun lead...
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| Main Author | |
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| Format | Journal Article |
| Language | English |
| Published |
12.03.2025
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.48550/arxiv.2503.09209 |
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| Summary: | Time-dependent Stark-Zeeman systems describe the motion of an electron
attracted by a proton subject to a magnetic and a time-dependent electric
field. For instance the study of the dynamics of a gateway around the moon
which is subject to the joint attraction of the moon, the earth and the sun
leads to time-dependent Stark-Zeeman systems. In the time-dependent case there
is no preserved energy. Therefore collisions cannot be regularized by blowing
up the energy hypersurface. A new regularization technique of blowing up
instead of the energy hypersurface the loop space was recently discovered by
Barutello, Ortega, and Verzini. In this article we explain how this new
regularization technique can be applied to the study of periodic orbits in
time-dependent planar Stark-Zeeman systems. Since the regularization by
blowing-up the loop space is nonlocal the regularized periodic orbits will not
satisfy an ODE anymore but a delay equation. |
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| DOI: | 10.48550/arxiv.2503.09209 |