Stability and bifurcations of even periodic orbits in the Sitnikov problem

Andrés  Rivera; Daniel Elías Nuñez Lopez; Jorge Galán; Camila Riccio

doi:10.1007/s10569-018-9875-z

Stability and bifurcations of even periodic orbits in the Sitnikov problem

Título traducido de la contribución: Estabilidad y bifurcaciones de órbitas periódicas en el problema de Sitnikov

Andrés Rivera, Daniel Elías Nuñez Lopez, Jorge Galán, Camila Riccio

Producción: Contribución a una revista › Artículo › revisión exhaustiva

5 Citas (Scopus)

Resumen

We study different families of even periodic solutions in the classical Sitnikov problem that emanate from the circular case as the eccentricity is increased. The families can be classified by the number N of full revolutions of the primaries and labelled by the number of zeroes p of the vertical coordinate of the massless body in half a period. We give a linear stability criterion of these branches depending on even N, based on the sign for the initial slope of the discriminant function for the associated Hill’s equation, in a computable interval of eccentricities. All families for N= 2 are linearly stable for small and computable e. The results show a fundamental symmetry-driven difference between the even and odd N cases.

Título traducido de la contribución	Estabilidad y bifurcaciones de órbitas periódicas en el problema de Sitnikov
Idioma original	Inglés
Número de artículo	82
Páginas (desde-hasta)	1-20
Número de páginas	20
Publicación	Celestial Mechanics and Dynamical Astronomy
Volumen	130
N.º	12
DOI	https://doi.org/10.1007/s10569-018-9875-z
Estado	Publicada - 01 dic. 2018

Palabras clave

Periodic Orbits
Sitnikov problem
Numerical continuation

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10.1007/s10569-018-9875-z

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abstract = "We study different families of even periodic solutions in the classical Sitnikov problem that emanate from the circular case as the eccentricity is increased. The families can be classified by the number N of full revolutions of the primaries and labelled by the number of zeroes p of the vertical coordinate of the massless body in half a period. We give a linear stability criterion of these branches depending on even N, based on the sign for the initial slope of the discriminant function for the associated Hill{\textquoteright}s equation, in a computable interval of eccentricities. All families for N= 2 are linearly stable for small and computable e. The results show a fundamental symmetry-driven difference between the even and odd N cases.",

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N2 - We study different families of even periodic solutions in the classical Sitnikov problem that emanate from the circular case as the eccentricity is increased. The families can be classified by the number N of full revolutions of the primaries and labelled by the number of zeroes p of the vertical coordinate of the massless body in half a period. We give a linear stability criterion of these branches depending on even N, based on the sign for the initial slope of the discriminant function for the associated Hill’s equation, in a computable interval of eccentricities. All families for N= 2 are linearly stable for small and computable e. The results show a fundamental symmetry-driven difference between the even and odd N cases.

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Stability and bifurcations of even periodic orbits in the Sitnikov problem

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