In this chapter we provide an introduction to fractional dissipative partial differential equations (PDEs) with a focus on trying to understand their dynamics. The class of PDEs we focus on are reaction-diffusion equations but we also provide an outlook on closely related classes of PDEs. To simplify the exposition, we only discuss the cases of fractional time derivatives and fractional space derivatives in the PDE separately. As our main tools, we describe analytical as well as numerical methods, which are generically necessary to study nonlinear dynamics. We start with the analytical study of steady states and local linear stability for fractional time derivatives. Then we extend this view to a global perspective and consider time-fractional PDEs and gradient flows. Next, we continue to steady states, linear stability analysis and bifurcations for space-fractional PDEs. As a final analytical consideration we discuss existence and stability of traveling waves for space-fractional PDEs. In the last parts, we provide numerical discretization schemes for fractional (dissipative) PDEs and we utilize these techniques within numerical continuation in applied examples of fractional reaction-diffusion PDEs. We conclude with a brief summary and outlook on open questions in the field.

Fractional Dissipative PDEs / Achleitner, Franz; Akagi, Goro; Kuehn, Christian; Melenk, Jens Markus; Rademacher, Jens D. M.; Soresina, Cinzia; Yang, Jichen. - 37:(2024). [10.1007/978-3-031-54978-6_3]

Fractional Dissipative PDEs

Soresina, Cinzia;
2024-01-01

Abstract

In this chapter we provide an introduction to fractional dissipative partial differential equations (PDEs) with a focus on trying to understand their dynamics. The class of PDEs we focus on are reaction-diffusion equations but we also provide an outlook on closely related classes of PDEs. To simplify the exposition, we only discuss the cases of fractional time derivatives and fractional space derivatives in the PDE separately. As our main tools, we describe analytical as well as numerical methods, which are generically necessary to study nonlinear dynamics. We start with the analytical study of steady states and local linear stability for fractional time derivatives. Then we extend this view to a global perspective and consider time-fractional PDEs and gradient flows. Next, we continue to steady states, linear stability analysis and bifurcations for space-fractional PDEs. As a final analytical consideration we discuss existence and stability of traveling waves for space-fractional PDEs. In the last parts, we provide numerical discretization schemes for fractional (dissipative) PDEs and we utilize these techniques within numerical continuation in applied examples of fractional reaction-diffusion PDEs. We conclude with a brief summary and outlook on open questions in the field.
2024
Fractional Dispersive Models and Applications: Recent Developments and Future Perspectives
Springer Cham
Springer Cham
Achleitner, Franz; Akagi, Goro; Kuehn, Christian; Melenk, Jens Markus; Rademacher, Jens D. M.; Soresina, Cinzia; Yang, Jichen
Fractional Dissipative PDEs / Achleitner, Franz; Akagi, Goro; Kuehn, Christian; Melenk, Jens Markus; Rademacher, Jens D. M.; Soresina, Cinzia; Yang, Jichen. - 37:(2024). [10.1007/978-3-031-54978-6_3]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/438075
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