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We present a theoretical and numerical study of the bifurcations of the stationary patterns supported by a chemotactic model of Multiple Sclerosis (MS). We derive the normal forms of the dynamics which allows to predict the appearance and stabilization of the emerging branches describing the concentric patterns typical of Balo’s sclerosis, a very aggressive variant of MS. Spatial modulation of the Turing-type structures through a zigzag instability is also addressed. The nonlinear stage of the Eckhaus and zigzag instability is investigated numerically: defect-mediated wavenumber adjustments are recovered and the time of occurrence of phase-slips is studied as the system parameters are varied.

Bilotta, E., Gargano, F., Giunta, V., Lombardo, M.C., Pantano, P., Sammartino, M. (2018). Eckhaus and zigzag instability in a chemotaxis model of multiple sclerosis. ATTI DELLA ACCADEMIA PELORITANA DEI PERICOLANTI, CLASSE DI SCIENZE FISICHE MATEMATICHE E NATURALI, 96(S3), 1-18 [10.1478/AAPP.96S3A9].

Eckhaus and zigzag instability in a chemotaxis model of multiple sclerosis

Bilotta, Eleonora;Gargano, Francesco;Giunta, Valeria;Lombardo, Maria Carmela;Pantano, Pietro;Sammartino, Marco

2018-01-01

Abstract

We present a theoretical and numerical study of the bifurcations of the stationary patterns supported by a chemotactic model of Multiple Sclerosis (MS). We derive the normal forms of the dynamics which allows to predict the appearance and stabilization of the emerging branches describing the concentric patterns typical of Balo’s sclerosis, a very aggressive variant of MS. Spatial modulation of the Turing-type structures through a zigzag instability is also addressed. The nonlinear stage of the Eckhaus and zigzag instability is investigated numerically: defect-mediated wavenumber adjustments are recovered and the time of occurrence of phase-slips is studied as the system parameters are varied.

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	Data
	
			2018
		
	Settore scientifico disciplinare del contributo
	
			Settore MAT/07 - Fisica Matematica
		
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			ATTI DELLA ACCADEMIA PELORITANA DEI PERICOLANTI, CLASSE DI SCIENZE FISICHE MATEMATICHE E NATURALI
		
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			https://dx.doi.org/10.1478/AAPP.96S3A9
		
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			http://cab.unime.it/journals/index.php/AAPP/article/view/AAPP.96S3A9/AAPP96S3A9
		
	Citazione
	
			Bilotta, E., Gargano, F., Giunta, V., Lombardo, M.C., Pantano, P., Sammartino, M. (2018). Eckhaus and zigzag instability in a chemotaxis model of multiple sclerosis. ATTI DELLA ACCADEMIA PELORITANA DEI PERICOLANTI, CLASSE DI SCIENZE FISICHE MATEMATICHE E NATURALI, 96(S3), 1-18 [10.1478/AAPP.96S3A9].
		
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/340307

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