Variational methods and periodic solutions of Nbody and Ncentre problems.
Southall, John. (2006) Variational methods and periodic solutions of Nbody and Ncentre problems. Doctoral thesis, University of Surrey (United Kingdom)..

Text
10131145.pdf  Version of Record Available under License Creative Commons Attribution Noncommercial Share Alike. Download (4MB)  Preview 


Text
10131145.pdf Available under License Creative Commons Attribution Noncommercial Share Alike. Download (23MB)  Preview 
Abstract
In this thesis we study periodic solutions of several Nbody and Ncentre systems with different potentials from a variational viewpoint. The underlying focus is on understanding the structure of various action functionals, and the relationship between this and the system's periodic orbits and their properties. In particular we: investigate the integrable central force problems with potentials Valpha(x) =  1/xalpha for 1&le; alpha &le; 2. We show that for 1 < alpha < 2 there are only finitely many homotopy classes that do not contain a primeperiod, but that this number diverges as alpha &rarr;1+ or alpha &rarr; 2. Given any nonnull homotopy class of loops and any period T > 0 we list the finitely many distinct critical manifolds of collisionless orbits in that class in order of their action, and label them with their Morse indices with respect to the action functional. We investigate the 2body/1centre problem with LennardJones potential. We find the region of energymomentum space that supports the existence of periodic or quasiperiodic motion. We also show there exists m &isin; N such that for all q &ge; m there are periodic orbits in Op= UT>0 OpT (p &isin; Z  {0}) with q 'radial oscillations' in one period. Obtain results on which homotopy and homology classes of loops contain periodic solutions of the symmetric planar Newtonian 2centre problem, see theorem 4.4.1. In particular we find that the integrability of the system places strong constraints on which homology classes of loops contain periodic solutions and obtain some interesting results on primeperiod solutions. We also order by action 'P1 orbits' in all homotopy classes of loops that contain them and label them by their Morse indices with respect to the action functional. We investigate the 7Vbody problem with identical particles interacting through a potential of LennardJones (LJ) type. We consider any subset of loop space that satisfies a few basic conditions, one of which corresponds to the notion of 'tiedness' introduced by Gordon in [41]. We show that this system admits periodic solutions in every homotopy class of this subset of loop space. More precisely we show that every homotopy class contains at least two periodic solutions for sufficiently large periods. One of these solutions is a local minimum and the other is a mountainpass critical point of the action functional. We also prove that given a homotopy class of one of these subsets there do not exist any periodic solutions in it for sufficiently small periods. The results have wide applicability. For example, one can consider the space of choreographies and prove existence results for choreographical solutions. Our existence proof relies upon an assumption that global minimizers of standard strong force potentials on suitable spaces are nondegenerate up to some symmetries. We also find periodic solutions in some classes of loops that do not satisfy any tiedness condition. In particular we use a result in [27] to construct a periodic solution of the restricted spatial (2N + 2)body problem. o present a note on McCord, Montaldi, Roberts and Sbano's paper on relative periodic orbits in symmetric Lagrangian systems, see [54]. For the Ncentre problem with a strong force potential that is bounded above we find those homotopy classes of relative loops on which the action functional is coercive. We describe the homotopy types of the homotopy classes of relative loops. Under the assumption that the action functional is an S1invariant Morse function we describe a set of homotopy classes that contain infinitely many periodic orbits. The work can be viewed as an expansion on an example presented at the end of [54] which had N = 2; in particular we correct and generalize some assertions made regarding coercivity of the action functional and the centralizers of the gtwisted action. Some of the results are subject to numerically motivated assumptions detailed in the thesis.
Item Type:  Thesis (Doctoral)  

Divisions :  Theses  
Authors : 


Date :  2006  
Contributors : 


Depositing User :  EPrints Services  
Date Deposited :  09 Nov 2017 12:13  
Last Modified :  15 Mar 2018 22:31  
URI:  http://epubs.surrey.ac.uk/id/eprint/843280 
Actions (login required)
View Item 
Downloads
Downloads per month over past year