Your search keyword '"Grasselli, Maurizio"' showing total 396 results

1. Multi-component phase separation and small deformations of a spherical biomembrane

Author

Caetano, Diogo, Elliott, Charles M., Grasselli, Maurizio, and Poiatti, Andrea

Subjects

Mathematics - Analysis of PDEs, 35B36, 35Q92, 92C15

Abstract

We focus on the derivation and analysis of a model for multi-component phase separation occurring on biological membranes, inspired by observations of lipid raft formation. The model integrates local membrane composition with local membrane curvature, describing the membrane's geometry through a perturbation method represented as a graph over an undeformed Helfrich minimising surface, such as a sphere. The resulting energy consists of a small deformation functional coupled to a Cahn-Hilliard functional. By applying Onsager's variational principle, we obtain a multi-component Cahn-Hilliard equation for the vector $\boldsymbol\varphi$ of protein concentrations coupled to an evolution equation for the small deformation $u$ along the normal direction to the reference membrane. Then, in the case of a constant mobility matrix, we consider the Cauchy problem and we prove that it is (globally) well posed in a weak setting. We also demonstrate that any weak solution regularises in finite time and satisfies the so-called "strict separation property". This property allows usto show that any weak solution converges to a single stationary state by a suitable version of the Lojasiewicz-Simon inequality.

Published

2024

2. Cahn-Hilliard equations with singular potential, reaction term and pure phase initial datum

Author

Grasselli, Maurizio, Scarpa, Luca, and Signori, Andrea

Subjects

Mathematics - Analysis of PDEs, 35D30, 35K35, 35K86, 35Q92, 92C17

Abstract

We consider local and nonlocal Cahn-Hilliard equations with constant mobility and singular potentials including, e.g., the Flory-Huggins potential, subject to no-flux (or periodic) boundary conditions. The main goal is to show that the presence of a suitable class of reaction terms allows to establish the existence of a weak solution to the corresponding initial and boundary value problem even though the initial condition is a pure state. In other words, the separation process takes place even in presence of a pure phase, provided that it is triggered by a convenient reaction term. This fact was already observed by the authors in a previous contribution devoted to a specific biological model. In this context, we generalize the previously-mentioned concept by examining the essential assumptions required for the reaction term to apply the new strategy. Also, we explore the scenario involving the nonlocal Cahn-Hilliard equation and provide illustrative examples that contextualize within our abstract framework., Comment: 32 pages

Published

2024

3. Analysis of a Navier-Stokes phase-field crystal system

Author

Cavaterra, Cecilia, Grasselli, Maurizio, Mehmood, Muhammed Ali, and Voso, Riccardo

Subjects

Mathematics - Analysis of PDEs, 35Q35, 76T20

Abstract

We consider an evolution system modeling a flow of colloidal particles which are suspended in an incompressible fluid and accounts for colloidal crystallization. The system consists of the Navier-Stokes equations for the volume averaged velocity coupled with the so-called Phase-Field Crystal equation for the density deviation. Considering this system in a periodic domain and assuming that the viscosity as well as the mobility depend on the density deviation, we first prove the existence of a weak solution in dimension three. Then, in dimension two, we establish the existence of a (unique) strong solution.

Published

2024

4. Stochastic Cahn-Hilliard and conserved Allen-Cahn equations with logarithmic potential and conservative noise

Author

Di Primio, Andrea, Grasselli, Maurizio, and Scarpa, Luca

Subjects

Mathematics - Analysis of PDEs, Mathematics - Probability, 35Q92, 35R60, 60H15, 80A22

Abstract

We investigate the Cahn-Hilliard and the conserved Allen-Cahn equations with logarithmic type potential and conservative noise in a periodic domain. These features ensure that the order parameter takes its values in the physical range and, albeit the stochastic nature of the problems, that the total mass is conserved almost surely in time. For the Cahn-Hilliard equation, existence and uniqueness of probabilistically-strong solutions is shown up to the three-dimensional case. For the conserved Allen-Cahn equation, under a restriction on the noise magnitude, existence of martingale solutions is proved even in dimension three, while existence and uniqueness of probabilistically-strong solutions holds in dimension one. The analysis is carried out by studying the Cahn-Hilliard/conserved Allen-Cahn equations jointly, that is a linear combination of both the equations, which has an independent interest., Comment: 44 pages

Published

2023

5. Optimal Distributed Control for a Cahn-Hilliard-Darcy System with Mass Sources, Unmatched Viscosities and Singular Potential

Author

Abatangelo, Marco, Cavaterra, Cecilia, Grasselli, Maurizio, and Wu, Hao

Subjects

Mathematics - Optimization and Control, Mathematics - Analysis of PDEs, 35Q35, 35Q92, 49J20, 49J50, 49K20, 76D27, 76T06

Abstract

We study a Cahn-Hilliard-Darcy system with mass sources, which can be considered as a basic, though simplified, diffuse interface model for the evolution of tumor growth. This system is equipped with an impermeability condition for the (volume) averaged velocity $\mathbf{u}$ as well as homogeneous Neumann boundary conditions for the phase function $\varphi$ and the chemical potential $\mu$. The source term in the convective Cahn-Hilliard equation contains a control $R$ that can be thought, for instance, as a drug or a nutrient in applications. Our goal is to study a distributed optimal control problem in the two dimensional setting with a cost functional of tracking-type. In the physically relevant case with unmatched viscosities for the binary fluid mixtures and a singular potential, we first prove the existence and uniqueness of a global strong solution with $\varphi$ being strictly separated from the pure phases $\pm 1$. This well-posedness result enables us to characterize the control-to-state mapping $\mathcal{S}:R \mapsto \varphi$. Then we obtain the existence of an optimal control, the Fr\'{e}chet differentiability of $\mathcal{S}$ and first-order necessary optimality conditions expressed through a suitable variational inequality for the adjoint variables. Finally, we prove the differentiability of the control-to-costate operator and establish a second-order sufficient condition for the strict local optimality., Comment: Minor revision has been made. This is a full length preprint version with detailed computations

Published

2023

6. Multi-component conserved Allen-Cahn equations

Author

Grasselli, Maurizio and Poiatti, Andrea

Subjects

Mathematics - Analysis of PDEs, 35B36, 35B40, 35B41, 35B65, 35K40, 35K58, 37L30

Abstract

We consider a multi-component version of the conserved Allen-Cahn equation proposed by J. Rubinstein and P. Sternberg in 1992 as an alternative model for phase separation. In our case, the free energy is characterized by a mixing entropy density which belongs to a large class of physically relevant entropies like, e.g., the Boltzmann-Gibbs entropy. We establish the well-posedness of the Cauchy-Neumann problem with respect to a natural notion of (finite) energy solution which is more regular under appropriate assumptions and is strictly separated from pure phases if the initial datum is. We then prove that the energy solution becomes more regular and strictly separated instantaneously. Also, we show that any finite energy solution converges to a unique equilibrium. The validity of a dissipative inequality (identity for strong solutions) allows us to analyze the problem within the theory of infinite-dimensional dissipative dynamical systems. On account of the obtained results, we can associate to our problem a dissipative dynamical system and we can prove that it has a global attractor as well as an exponential attractor.

Published

2023

7. A phase-field system arising from multiscale modeling of thrombus biomechanics in blood vessels: local well-posedness in dimension two

Author

Grasselli, Maurizio and Poiatti, Andrea

Subjects

Mathematics - Analysis of PDEs, 35D35, 35G31, 35Q35, 76T99

Abstract

We consider a phase-field model which describes the interactions between the blood flow and the thrombus. The latter is supposed to be a viscoelastic material. The potential describing the cohesive energy of the mixture is assumed to be of Flory-Huggins type (i.e. logarithmic). This ensures the boundedness from below of the dissipation energy. In the two dimensional case, we prove the local (in time) existence and uniqueness of a strong solution, provided that the two viscosities of the pure fluid phases are close enough. We also show that the order parameter remains strictly separated from the pure phases if it is so at the initial time.

Published

2023

8. Global well-posedness and convergence to equilibrium for the Abels-Garcke-Gr\'{u}n model with nonlocal free energy

Author

Gal, Ciprian G., Giorgini, Andrea, Grasselli, Maurizio, and Poiatti, Andrea

Subjects

Mathematics - Analysis of PDEs, 35B40, 35B65, 35Q35, 76D03, 76D45, 76T06

Abstract

We investigate the nonlocal version of the Abels-Garcke-Gr\"{u}n (AGG) system, which describes the motion of a mixture of two viscous incompressible fluids. This consists of the incompressible Navier-Stokes-Cahn-Hilliard system characterized by concentration-dependent density and viscosity, and an additional flux term due to interface diffusion. In particular, the Cahn-Hilliard dynamics of the concentration (phase-field) is governed by the aggregation/diffusion competition of the nonlocal Helmholtz free energy with singular (logarithmic) potential and constant mobility. We first prove the existence of global strong solutions in general two-dimensional bounded domains and their uniqueness when the initial datum is strictly separated from the pure phases. The key points are a novel well-posedness result of strong solutions to the nonlocal convective Cahn-Hilliard equation with singular potential and constant mobility under minimal integral assumption on the incompressible velocity field, and a new two-dimensional interpolation estimate for the $L^4(\Omega)$ control of the pressure in the stationary Stokes problem. Secondly, we show that any weak solution, whose existence was already known, is globally defined, enjoys the propagation of regularity and converges towards an equilibrium (i.e., a stationary solution) as $t\rightarrow \infty$. Furthermore, we demonstrate the uniqueness of strong solutions and their continuous dependence with respect to general (not necessarily separated) initial data in the case of matched densities and unmatched viscosities (i.e., the nonlocal model H with variable viscosity, singular potential and constant mobility). Finally, we provide a stability estimate between the strong solutions to the nonlocal AGG model and the nonlocal Model H in terms of the difference of densities.

Published

2022

9. A stochastic Allen-Cahn-Navier-Stokes system with singular potential

Author

Di Primio, Andrea, Grasselli, Maurizio, and Scarpa, Luca

Subjects

Mathematics - Analysis of PDEs, Mathematics - Probability

Abstract

We investigate a stochastic version of the Allen-Cahn-Navier-Stokes system in a smooth two- or three-dimensional domain with random initial data. The system consists of a Navier-Stokes equation coupled with a convective Allen-Cahn equation, with two independent sources of randomness given by general multiplicative-type Wiener noises. In particular, the Allen-Cahn equation is characterized by a singular potential of logarithmic type as prescribed by the classical thermodynamical derivation of the model. The problem is endowed with a no-slip boundary condition for the (volume averaged) velocity field, as well as a homogeneous Neumann condition for the order parameter. We first prove the existence of analytically weak martingale solutions in two and three spatial dimensions. Then, in two dimensions, we also estabilish pathwise uniqueness and the existence of a unique probabilistically-strong solution. Eventually, by exploiting a suitable generalisation of the classical De Rham theorem to stochastic processes, existence and uniqueness of a pressure is also shown., Comment: 39 pages

Published

2022

10. Regularisation and separation for evolving surface Cahn-Hilliard equations

Author

Caetano, Diogo, Elliott, Charles M., Grasselli, Maurizio, and Poiatti, Andrea

Subjects

Mathematics - Analysis of PDEs

Abstract

We consider the Cahn-Hilliard equation with constant mobility and logarithmic potential on a two-dimensional evolving closed surface embedded in $\mathbb R^3$, as well as a related weighted model. The well-posedness of weak solutions for the corresponding initial value problems on a given time interval $[0,T]$ have already been established by the first two authors. Here we first prove some regularisation properties of weak solutions in finite time. Then, we show the validity of the strict separation property for both the problems. This means that the solutions stay uniformly away from the pure phases $\pm1$ from any positive time on. This property plays an essential role to achieve higher-order regularity for the solutions. Also, it is a rigorous validation of the standard double-well approximation. The present results are a twofold extension of the well-known ones for the classical equation in planar domains.

Published

2022

11. On a system of coupled Cahn-Hilliard equations

Author

Di Primio, Andrea and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs

Abstract

We consider a system which consists of a Cahn-Hilliard equation coupled with a Cahn-Hilliard-Oono equation in a bounded domain of $\mathbb{R}^d$, $d = 2, 3$. This system accounts for macrophase and microphase separation in a polymer mixture through two order parameters $u$ and $v$. The free energy of this system is a bivariate interaction potential which contains the mixing entropy of the two order parameters and suitable coupling terms. The equations are endowed with initial conditions and homogeneous Neumann boundary conditions both for $u,v$ and for the corresponding chemical potentials. We first prove that the resulting problem is well posed in a weak sense. Then, in the conserved case, we establish that the weak solution regularizes instantaneously. Furthermore, in two spatial dimensions, we show the strict separation property for $u$ and $v$, namely, they both stay uniformly away from the pure phases $\pm 1$ in finite time. Finally, we investigate the long-time behavior of a finite energy solution showing, in particular, that it converges to a single stationary state., Comment: to appear in Nonlinear Analysis: Real World Applications

Published

2022

12. On a phase field model for RNA-Protein dynamics

Author

Grasselli, Maurizio, Scarpa, Luca, and Signori, Andrea

Subjects

Mathematics - Analysis of PDEs, 35D30, 35K35, 35K86, 35Q92, 92C17, 92C50

Abstract

A phase field model which describes the formation of protein-RNA complexes subject to phase segregation is analyzed. A single protein, two RNA species, and two complexes are considered. Protein and RNA species are governed by coupled reaction-diffusion equations which also depend on the two complexes. The latter ones are driven by two Cahn-Hilliard equations with Flory-Huggins potential and reaction terms depending on the solution variables. The resulting nonlinear coupled system is equipped with no-flux boundary conditions and suitable initial conditions. The former ones entail some mass conservation constraints which are also due to the nature of the reaction terms. The existence of global weak solutions in a bounded (two- or) three-dimensional domain is established. In dimension two, some weighted-in-time regularity properties are shown. In particular, the complexes instantaneously get uniformly separated from the pure phases. Taking advantage of this result, a unique continuation property is proven. Among the many technical difficulties, the most significant one arises from the fact that the two complexes are initially nonexistent, so their initial conditions are zero i.e., they start from a pure phase. Thus we must solve, in particular, a system of two coupled Cahn-Hilliard equations with singular potential and nonlinear sources without the usual assumption on the initial datum, i.e., the initial phase cannot be pure. This novelty requires a new approach to estimate the chemical potential in a suitable $L^p(L^2)$-space with $p\in(1,2)$. This technique can be extended to other models like, for instance, the well-known Cahn-Hilliard-Oono equation., Comment: 56 pages

Published

2022

13. Non-isothermal non-Newtonian fluids: the stationary case

Author

Grasselli, Maurizio, Parolini, Nicola, Poiatti, Andrea, and Verani, Marco

Subjects

Mathematics - Analysis of PDEs, Mathematics - Numerical Analysis

Abstract

The stationary Navier-Stokes equations for a non-Newtonian incompressible fluid are coupled with the stationary heat equation and subject to Dirichlet type boundary conditions. The viscosity is supposed to depend on the temperature and the stress depends on the strain through a suit-able power law depending on $p \in (1,2)$ (shear thinning case). For this problem we establish the existence of a weak solution as well as we prove some regularity results both for the Navier-Stokes and the Stokes cases.Then, the latter case with the Carreau power law is approximated through a FEM scheme and some error estimates are obtained. Such estimates are then validated through some two-dimensional numerical experiments.

Published

2022

14. Well-posedness for a Navier-Stokes-Cahn-Hilliard System for Incompressible Two-phase Flows with Surfactant

Author

Di Primio, Andrea, Grasselli, Maurizio, and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35Q35

Abstract

We investigate a diffuse-interface model that describes the dynamics of incompressible two-phase viscous flows with surfactant. The resulting system of partial differential equations consists of a sixth-order Cahn-Hilliard equation for the difference of local concentrations of the binary fluid mixture coupled with a fourth-order Cahn-Hilliard equation for the local concentration of the surfactant. The former has a smooth potential, while the latter has a singular potential. Both equations are coupled with a Navier-Stokes system for the (volume averaged) fluid velocity. The evolution system is endowed with suitable initial conditions, a no-slip boundary condition for the velocity field and homogeneous Neumann boundary conditions for the phase functions as well as for the chemical potentials. We first prove the existence of a global weak solution, which turns out to be unique in two dimensions. Stronger regularity assumptions on the initial data allow us to prove the existence of a unique global (resp. local) strong solution in two (resp. three) dimensions. In the two dimensional case, we can derive a continuous dependence estimate with respect to the norms controlled by the total energy. Then we establish instantaneous regularization properties of global weak solutions for $t>0$. In particular, we show that the surfactant concentration stays uniformly away from the pure states $0$ and $1$ after some positive time.

Published

2022

15. Nonlocal Cahn-Hilliard-Hele-Shaw systems with singular potential and degenerate mobility

Author

Cavaterra, Cecilia, Frigeri, Sergio, and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35Q35, 76D27, 76T06

Abstract

We study a Cahn-Hilliard-Hele-Shaw (or Cahn-Hilliard-Darcy) system for an incompressible mixture of two fluids. The relative concentration difference $\varphi$ is governed by a convective nonlocal Cahn-Hilliard equation with degenerate mobility and logarithmic potential. The volume averaged fluid velocity $\mathbf{u}$ obeys a Darcy's law depending on the so-called Korteweg force $\mu\nabla \varphi$, where $\mu$ is the nonlocal chemical potential. In addition, the kinematic viscosity $\eta$ may depend on $\varphi$. We establish first the existence of a global weak solution which satisfies the energy identity. Then we prove the existence of a strong solution. Further regularity results on the pressure and on $\mathbf{u}$ are also obtained. Weak-strong uniqueness is demonstrated in the two dimensional case. In the three-dimensional case, uniqueness of weak solutions holds if $\eta$ is constant. Otherwise, weak-strong uniqueness is shown by assuming that the pressure of the strong solution is $\alpha$-H\"{o}lder continuous in space for $\alpha\in (1/5,1)$., Comment: 70 pages

Published

2021

16. A stochastic Allen–Cahn–Navier–Stokes system with singular potential

Author

Di Primio, Andrea, Grasselli, Maurizio, and Scarpa, Luca

Published

2024

17. On the Mass-Conserving Allen-Cahn Approximation for Incompressible Binary Fluids

Author

Giorgini, Andrea, Grasselli, Maurizio, and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35D35, 35K61, 35Q30, 35Q31, 35Q35, 76D27, 76D45

Abstract

This paper is devoted to the global well-posedness of two Diffuse Interface systems modeling the motion of an incompressible two-phase fluid mixture in presence of capillarity effects in a bounded smooth domain $\Omega\subset \mathbb{R}^d$, $d=2,3$. We focus on dissipative mixing effects originating from the mass-conserving Allen-Cahn dynamics with the physically relevant Flory-Huggins potential. More precisely, we study the mass-conserving Navier-Stokes-Allen-Cahn system for nonhomogeneous fluids and the mass-conserving Euler-Allen-Cahn system for homogeneous fluids. We prove existence and uniqueness of global weak and strong solutions as well as their property of separation from the pure states. In our analysis, we combine the energy and entropy estimates, a novel end-point estimate of the product of two functions, a new estimate for the Stokes problem with non-constant viscosity, and logarithmic type Gronwall arguments.

Published

2020

18. Allen–Cahn–Navier–Stokes–Voigt Systems with Moving Contact Lines

Author

Gal, Ciprian G., Grasselli, Maurizio, and Poiatti, Andrea

Published

2023

19. A nonlinear model for marble sulphation including surface rugosity and mechanical damage

Author

Bonetti, Elena, Cavaterra, Cecilia, Freddi, Francesco, Grasselli, Maurizio, and Natalini, Roberto

Published

2023

20. Global well-posedness and convergence to equilibrium for the Abels-Garcke-Grün model with nonlocal free energy

Author

Gal, Ciprian G., Giorgini, Andrea, Grasselli, Maurizio, and Poiatti, Andrea

Published

2023

21. Erratum: 'On the nonlocal Cahn-Hilliard-Brinkman and Cahn-Hilliard-Hele-Shaw systems' [Comm. Pure Appl. Anal. 15 (2016), 299-317]

Author

Della Porta, Francesco and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs

Abstract

In this note, we want to highlight and correct an error in the paper "On the nonlocal Cahn-Hilliard-Brinkman and Cahn-Hilliard-Hele-Shaw systems" [Comm. Pure Appl. Anal. 15 (2016), 299-317] written by the authors.

Published

2018

22. On the mass-conserving Allen-Cahn approximation for incompressible binary fluids

Author

Giorgini, Andrea, Grasselli, Maurizio, and Wu, Hao

Published

2022

23. A nonlinear model for marble sulphation including surface rugosity: theoretical and numerical results

Author

Bonetti, Elena, Cavaterra, Cecilia, Freddi, Francesco, Grasselli, Maurizio, and Natalini, Roberto

Subjects

Mathematics - Analysis of PDEs, 35M33, 65M06, 76R50

Abstract

We consider an evolution system describing the phenomenon of marble sulphation of a monument, accounting of the surface rugosity. We first prove a local in time well posedness result. Then, stronger assumptions on the data allow us to establish the existence of a global in time solution. Finally, we perform some numerical simulations that illustrate the main feature of the proposed model.

Published

2017

24. Multi-component conserved Allen-Cahn equations.

Author

Grasselli, Maurizio and Poiatti, Andrea

Subjects

*DYNAMICAL systems, *PHASE separation, *ENTROPY, *EQUATIONS, *EQUILIBRIUM

Abstract

We consider a multi-component version of the conserved Allen-Cahn equation proposed by J. Rubinstein and P. Sternberg in 1992 as an alternative model for phase separation. In our case, the free energy is characterized by a mixing entropy density which belongs to a large class of physically relevant entropies like, for example, the Boltzmann-Gibbs entropy. We establish the well-posedness of the Cauchy-Neumann problem with respect to a natural notion of (finite) energy solution which is more regular under appropriate assumptions and is strictly separated from pure phases if the initial datum is. We then prove that the energy solution becomes more regular and strictly separated instantaneously. Also, we show that any finite energy solution converges to a unique equilibrium. The validity of a dissipative inequality (identity for strong solutions) allows us to analyze the problem within the theory of infinite-dimensional dissipative dynamical systems. On account of the obtained results, we can associate to our problem a dissipative dynamical system and we can prove that it has a global attractor as well as an exponential attractor. [ABSTRACT FROM AUTHOR]

Published

2024

25. Chemomechanical Degradation of Monumental Stones: Preliminary Results

Author

Bonetti, Elena, Cavaterra, Cecilia, Freddi, Francesco, Grasselli, Maurizio, Natalini, Roberto, Alberti, Giovanni, Series Editor, Patrizio, Giorgio, Editor-in-Chief, Bracci, Filippo, Series Editor, Canuto, Claudio, Series Editor, Ferone, Vincenzo, Series Editor, Fontanari, Claudio, Series Editor, Moscariello, Gioconda, Series Editor, Pistoia, Angela, Series Editor, Sammartino, Marco, Series Editor, Bonetti, Elena, editor, Cavaterra, Cecilia, editor, Natalini, Roberto, editor, and Solci, Margherita, editor

Published

2021

26. A diffuse interface model of tumour evolution under a finite elastic confinement

Author

Agosti, Abramo, primary, Bardin, Riccardo, additional, Ciarletta, Pasquale, additional, and Grasselli, Maurizio, additional

Published

2024

27. On the nonlocal Cahn-Hilliard-Brinkman and Cahn-Hilliard-Hele-Shaw systems

Author

Della Porta, Francesco and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs

Abstract

The phase separation of an isothermal incompressible binary fluid in a porous medium can be described by the so-called Brinkman equation coupled with a convective Cahn-Hilliard (CH) equation. The former governs the average fluid velocity $\mathbf{u}$, while the latter rules evolution of $\varphi$, the difference of the (relative) concentrations of the two phases. The two equations are known as the Cahn-Hilliard-Brinkman (CHB) system. In particular, the Brinkman equation is a Stokes-like equation with a forcing term (Korteweg force) which is proportional to $\mu\nabla\varphi$, where $\mu$ is the chemical potential. When the viscosity vanishes, then the system becomes the Cahn-Hilliard-Hele-Shaw (CHHS) system. Both systems have been studied from the theoretical and the numerical viewpoints. However, theoretical results on the CHHS system are still rather incomplete. For instance, uniqueness of weak solutions is unknown even in 2D. Here we replace the usual CH equation with its physically more relevant nonlocal version. This choice allows us to prove more about the corresponding nonlocal CHHS system. More precisely, we first study well-posedness for the CHB system, endowed with no-slip and no-flux boundary conditions. Then, existence of a weak solution to the CHHS system is obtained as a limit of solutions to the CHB system. Stronger assumptions on the initial datum allow us to prove uniqueness for the CHHS system. Further regularity properties are obtained by assuming additional, though reasonable, assumptions on the interaction kernel. By exploiting these properties, we provide an estimate for the difference between the solution to the CHB system and the one to the CHHS system with respect to viscosity.

Published

2016

28. Regularity results for the nonlocal Cahn-Hilliard equation with singular potential and degenerate mobility

Author

Frigeri, Sergio, Gal, Ciprian G., and Grasselli, Maurizio

Published

2021

29. Discontinuous Galerkin approximation of linear parabolic problems with dynamic boundary conditions

Author

Antonietti, Paola F., Grasselli, Maurizio, Stangalino, Simone, and Verani, Marco

Subjects

Mathematics - Numerical Analysis

Abstract

In this paper we propose and analyze a Discontinuous Galerkin method for a linear parabolic problem with dynamic boundary conditions. We present the formulation and prove stability and optimal a priori error estimates for the fully discrete scheme. More precisely, using polynomials of degree $p\geq 1$ on meshes with granularity $h$ along with a backward Euler time-stepping scheme with time-step $\Delta t$, we prove that the fully-discrete solution is bounded by the data and it converges, in a suitable (mesh-dependent) energy norm, to the exact solution with optimal order $h^p + \Delta t$. The sharpness of the theoretical estimates are verified through several numerical experiments.

Published

2015

30. Convective nonlocal Cahn-Hilliard equations with reaction terms

Author

Della Porta, Francesco and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 37L30, 45K05, 76T99, 80A32

Abstract

We introduce and analyze the nonlocal variants of two Cahn-Hilliard type equations with reaction terms. The first one is the so-called Cahn-Hilliard-Oono equation which models, for instance, pattern formation in diblock-copolymers as well as in binary alloys with induced reaction and type-I superconductors. The second one is the Cahn-Hilliard type equation introduced by Bertozzi et al. to describe image inpainting. Here we take a free energy functional which accounts for nonlocal interactions. Our choice is motivated by the work of Giacomin and Lebowitz who showed that the rigorous physical derivation of the Cahn-Hilliard equation leads to consider nonlocal functionals. The equations also have a transport term with a given velocity field and are subject to a homogenous Neumann boundary condition for the chemical potential, i.e., the first variation of the free energy functional. We first establish the well-posedness of the corresponding initial and boundary value problems in a weak setting. Then we consider such problems as dynamical systems and we show that they have bounded absorbing sets and global attractors.

Published

2014

31. On a diffuse interface model of tumor growth

Author

Frigeri, Sergio, Grasselli, Maurizio, and Rocca, Elisabetta

Subjects

Mathematics - Analysis of PDEs, 35D30, 35K57, 35Q92, 37L30, 92C17

Abstract

We consider a diffuse interface model of tumor growth proposed by A.~Hawkins-Daruud et al. This model consists of the Cahn-Hilliard equation for the tumor cell fraction $\varphi$ nonlinearly coupled with a reaction-diffusion equation for $\psi$, which represents the nutrient-rich extracellular water volume fraction. The coupling is expressed through a suitable proliferation function $p(\varphi)$ multiplied by the differences of the chemical potentials for $\varphi$ and $\psi$. The system is equipped with no-flux boundary conditions which entails the conservation of the total mass, that is, the spatial average of $\varphi+\psi$. Here we prove the existence of a weak solution to the associated Cauchy problem, provided that the potential $F$ and $p$ satisfy sufficiently general conditions. Then we show that the weak solution is unique and continuously depends on the initial data, provided that $p$ satisfies slightly stronger growth restrictions. Also, we demonstrate the existence of a strong solution and that any weak solution regularizes in finite time. Finally, we prove the existence of the global attractor in a phase space characterized by an a priori bounded energy., Comment: 31 pages

Published

2014

32. On the Cahn-Hilliard-Brinkman system

Author

Bosia, Stefano, Conti, Monica, and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35B40, 35D30, 35Q35, 37L30, 76D27, 76D45, 76S05, 76T99

Abstract

We consider a diffuse interface model for phase separation of an isothermal incompressible binary fluid in a Brinkman porous medium. The coupled system consists of a convective Cahn-Hilliard equation for the phase field $\phi$, i.e., the difference of the (relative) concentrations of the two phases, coupled with a modified Darcy equation proposed by H.C. Brinkman in 1947 for the fluid velocity $\mathbf{u}$. This equation incorporates a diffuse interface surface force proportional to $\phi \nabla \mu$, where $\mu$ is the so-called chemical potential. We analyze the well-posedness of the resulting Cahn-Hilliard-Brinkman (CHB) system for $(\phi,\mathbf{u})$. Then we establish the existence of a global attractor and the convergence of a given (weak) solution to a single equilibrium via {\L}ojasiewicz-Simon inequality. Furthermore, we study the behavior of the solutions as the viscosity goes to zero, that is, when the CHB system approaches the Cahn-Hilliard-Hele-Shaw (CHHS) system. We first prove the existence of a weak solution to the CHHS system as limit of CHB solutions. Then, in dimension two, we estimate the difference of the solutions to CHB and CHHS systems in terms of the viscosity constant appearing in CHB.

Published

2014

33. On nonlocal Cahn-Hilliard-Navier-Stokes systems in two dimensions

Author

Frigeri, Sergio, Gal, Ciprian G., and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs

Abstract

We consider a diffuse interface model which describes the motion of an incompressible isothermal mixture of two immiscible fluids. This model consists of the Navier-Stokes equations coupled with a convective nonlocal Cahn-Hilliard equation. Several results were already proven by two of the present authors. However, in the two-dimensional case, the uniqueness of weak solutions was still open. Here we establish such a result even in the case of degenerate mobility and singular potential. Moreover, we show the strong-weak uniqueness in the case of viscosity depending on the order parameter, provided that either the mobility is constant and the potential is regular or the mobility is degenerate and the potential is singular. In the case of constant viscosity, on account of the uniqueness results we can deduce the connectedness of the global attractor whose existence was obtained in a previous paper. The uniqueness technique can be adapted to show the validity of a smoothing property for the difference of two trajectories which is crucial to establish the existence of an exponential attractor. The latter is established even in the case of variable viscosity, constant mobility and regular potential., Comment: 70 pages

Published

2014

34. Robust exponential attractors for the modified phase-field crystal equation

Author

Grasselli, Maurizio and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35Q82, 37L25, 74N05, 82C26

Abstract

We consider the modified phase-field crystal (MPFC) equation that has recently been proposed by P. Stefanovic et al. This is a variant of the phase-field crystal (PFC) equation, introduced by K.-R. Elder et al., which is characterized by the presence of an inertial term $\beta\phi_{tt}$. Here $\phi$ is the phase function standing for the number density of atoms and $\beta\geq 0$ is a relaxation time. The associated dynamical system for the MPFC equation with respect to the parameter $\beta$ is analyzed. More precisely, we establish the existence of a family of exponential attractors $\mathcal{M}_\beta$ that are H\"older continuous with respect to $\beta$., Comment: arXiv admin note: text overlap with arXiv:1306.5857

Published

2013

35. Nonlocal Cahn–Hilliard–Hele–Shaw Systems with Singular Potential and Degenerate Mobility

Author

Cavaterra, Cecilia, Frigeri, Sergio, and Grasselli, Maurizio

Published

2022

36. Optimal Distributed Control of Two-Dimensional Nonlocal Cahn–Hilliard–Navier–Stokes Systems with Degenerate Mobility and Singular Potential

Author

Frigeri, Sergio, Grasselli, Maurizio, and Sprekels, Jürgen

Published

2020

37. Cahn-Hilliard Equation with Nonlocal Singular Free Energies

Author

Abels, Helmut, Bosia, Stefano, and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35B41, 37L99, 45K05, 47H05, 47J35, 80A22

Abstract

We consider a Cahn-Hilliard equation which is the conserved gradient flow of a nonlocal total free energy functional. This functional is characterized by a Helmholtz free energy density, which can be of logarithmic type. Moreover, the spatial interactions between the different phases are modeled by a singular kernel. As a consequence, the chemical potential $\mu$ contains an integral operator acting on the concentration difference $c$, instead of the usual Laplace operator. We analyze the equation on a bounded domain subject to no-flux boundary condition for $\mu$ and by assuming constant mobility. We first establish the existence and uniqueness of a weak solution and some regularity properties. These results allow us to define a dissipative dynamical system on a suitable phase-space and we prove that such a system has a (connected) global attractor. Finally, we show that a Neumann-like boundary condition can be recovered for $c$, provided that it is supposed to be regular enough., Comment: 43 pages

Published

2013

38. Non-isothermal viscous Cahn--Hilliard equation with inertial term and dynamic boundary conditions

Author

Cavaterra, Cecilia, Grasselli, Maurizio, and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35B40, 35B41, 37L99, 80A22

Abstract

We consider a non-isothermal modified Cahn--Hilliard equation which was previously analyzed by M. Grasselli et al. Such an equation is characterized by an inertial term and a viscous term and it is coupled with a hyperbolic heat equation. The resulting system was studied in the case of no-flux boundary conditions. Here we analyze the case in which the order parameter is subject to a dynamic boundary condition. This assumption requires a more refined strategy to extend the previous results to the present case. More precisely, we first prove the well-posedness for solutions with bounded energy as well as for weak solutions. Then we establish the existence of a global attractor. Finally, we prove the convergence of any given weak solution to a single equilibrium by using a suitable Lojasiewicz--Simon inequality.

Published

2013

39. Well-posedness and longtime behavior for the modified phase-field crystal equation

Author

Grasselli, Maurizio and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35Q82, 37L99, 74N05, 82C26

Abstract

We consider a modification of the so-called phase-field crystal (PFC) equation introduced by K.R. Elder et al. This variant has recently been proposed by P. Stefanovic et al. to distinguish between elastic relaxation and diffusion time scales. It consists of adding an inertial term (i.e. a second-order time derivative) into the PFC equation. The mathematical analysis of the resulting equation is more challenging with respect to the PFC equation, even at the well-posedness level. Moreover, its solutions do not regularize in finite time as in the case of PFC equation. Here we analyze the modified PFC (MPFC) equation endowed with periodic boundary conditions. We first prove the existence and uniqueness of a solution with initial data in a bounded energy space. This solution satisfies some uniform dissipative estimates which allow us to study the global longtime behavior of the corresponding dynamical system. In particular, we establish the existence of an exponential attractor. Then we demonstrate that any trajectory originating from the bounded energy phase space does converge to a unique equilibrium. This is done by means of a suitable version of the {\L}ojasiewicz-Simon inequality. A convergence rate estimate is also given.

Published

2013

40. A diffuse interface model for two-phase incompressible flows with nonlocal interactions and nonconstant mobility

Author

Frigeri, Sergio, Grasselli, Maurizio, and Rocca, Elisabetta

Subjects

Mathematics - Analysis of PDEs, 2010 35Q30, 37L30, 45K05, 76D03, 76T99

Abstract

We consider a diffuse interface model for incompressible isothermal mixtures of two immiscible fluids with matched constant densities. This model consists of the Navier-Stokes system coupled with a convective nonlocal Cahn-Hilliard equation with non-constant mobility. We first prove the existence of a global weak solution in the case of non-degenerate mobilities and regular potentials of polynomial growth. Then we extend the result to degenerate mobilities and singular (e.g. logarithmic) potentials. In the latter case we also establish the existence of the global attractor in dimension two. Using a similar technique, we show that there is a global attractor for the convective nonlocal Cahn-Hilliard equation with degenerate mobility and singular potential in dimension three., Comment: 47 pages

Published

2013

41. Strong solutions for two-dimensional nonlocal Cahn-Hilliard-Navier-Stokes systems

Author

Frigeri, Sergio, Grasselli, Maurizio, and Krejčí, Pavel

Subjects

Mathematics - Analysis of PDEs

Abstract

A well-known diffuse interface model for incompressible isothermal mixtures of two immiscible fluids consists of the Navier-Stokes system coupled with a convective Cahn-Hilliard equation. In some recent contributions the standard Cahn-Hilliard equation has been replaced by its nonlocal version. The corresponding system is physically more relevant and mathematically more challenging. Indeed, the only known results are essentially the existence of a global weak solution and the existence of a suitable notion of global attractor for the corresponding dynamical system defined without uniqueness. In fact, even in the two-dimensional case, uniqueness of weak solutions is still an open problem. Here we take a step forward in the case of regular potentials. First we prove the existence of a (unique) strong solution in two dimensions. Then we show that any weak solution regularizes in finite time uniformly with respect to bounded sets of initial data. This result allows us to deduce that the global attractor is the union of all the bounded complete trajectories which are strong solutions. We also demonstrate that each trajectory converges to a single equilibrium, provided that the potential is real analytic and the external forces vanish., Comment: 30 pages

Published

2013

42. Finite--dimensional global attractor for a system modeling the 2D nematic liquid crystal flow

Author

Grasselli, Maurizio and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35B41, 35Q35, 76A15, 76D05

Abstract

We consider a 2D system that models the nematic liquid crystal flow through the Navier--Stokes equations suitably coupled with a transport-reaction-diffusion equation for the averaged molecular orientations. This system has been proposed as a reasonable approximation of the well-known Ericksen--Leslie system. Taking advantage of previous well-posedness results and proving suitable dissipative estimates, here we show that the system endowed with periodic boundary conditions is a dissipative dynamical system with a smooth global attractor of finite fractal dimension.

Published

2012

43. Longtime behavior of nonlocal Cahn-Hilliard equations

Author

Gal, Ciprian G. and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems, 35R09, 37L30, 82C24

Abstract

Here we consider the nonlocal Cahn-Hilliard equation with constant mobility in a bounded domain. We prove that the associated dynamical system has an exponential attractor, provided that the potential is regular. In order to do that a crucial step is showing the eventual boundedness of the order parameter uniformly with respect to the initial datum. This is obtained through an Alikakos-Moser type argument. We establish a similar result for the viscous nonlocal Cahn-Hilliard equation with singular (e.g., logarithmic) potential. In this case the validity of the so-called separation property is crucial. We also discuss the convergence of a solution to a single stationary state. The separation property in the nonviscous case is known to hold when the mobility degenerates at the pure phases in a proper way and the potential is of logarithmic type. Thus, the existence of an exponential attractor can be proven in this case as well.

Published

2012

44. Nonlocal Cahn-Hilliard-Navier-Stokes systems with singular potentials

Author

Frigeri, Sergio and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35Q30, 37L30, 45K05, 76T99

Abstract

Here we consider a Cahn-Hilliard-Navier-Stokes system characterized by a nonlocal Cahn-Hilliard equation with a singular (e.g., logarithmic) potential. This system originates from a diffuse interface model for incompressible isothermal mixtures of two immiscible fluids. We have already analyzed the case of smooth potentials with arbitrary polynomial growth. Here, taking advantage of the previous results, we study this more challenging (and physically relevant) case. We first establish the existence of a global weak solution with no-slip and no-flux boundary conditions. Then we prove the existence of the global attractor for the 2D generalized semiflow (in the sense of J.M. Ball). We recall that uniqueness is still an open issue even in 2D. We also obtain, as byproduct, the existence of a connected global attractor for the (convective) nonlocal Cahn-Hilliard equation. Finally, in the 3D case, we establish the existence of a trajectory attractor (in the sense of V.V. Chepyzhov and M.I. Vishik)., Comment: 32 pages

Published

2012

45. Long-time behavior for a hydrodynamic model on nematic liquid crystal flows with asymptotic stabilizing boundary condition and external force

Author

Grasselli, Maurizio and Wu, Hao

Subjects

Mathematics - Analysis of PDEs, 35B40, 35Q35, 76A15, 76D05

Abstract

In this paper, we consider a simplified Ericksen-Leslie model for the nematic liquid crystal flow. The evolution system consists of the Navier-Stokes equations coupled with a convective Ginzburg-Landau type equation for the averaged molecular orientation. We suppose that the Navier-Stokes equations are characterized by a no-slip boundary condition and a time-dependent external force g(t), while the equation for the molecular director is subject to a time-dependent Dirichlet boundary condition h(t). We show that, in 2D, each global weak solution converges to a single stationary state when h(t) and g(t) converge to a time-independent boundary datum h_\infty and 0, respectively. Estimates on the convergence rate are also obtained. In the 3D case, we prove that global weak solutions are eventually strong so that results similar to the 2D case can be proven. We also show the existence of global strong solutions, provided that either the viscosity is large enough or the initial datum is close to a given equilibrium., Comment: 38 pages

Published

2011

46. Nonlocal phase-field systems with general potentials

Author

Grasselli, Maurizio and Schimperna, Giulio

Subjects

Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems, 35B41, 35B41, 35Q79, 37L30, 80A22

Abstract

We consider a phase-field model where the internal energy depends on the order parameter in a nonlocal way. Therefore, the resulting system consists of the energy balance equation coupled with a nonlinear and nonlocal ODE for the order parameter. Such system has been analyzed by several authors, in particular when the configuration potential is a smooth double-well function. More recently, in the case of a potential defined on (-1,1) and singular at the endpoints, the existence of a finite-dimensional global attractor has been proven. Here we examine both the case of smooth potentials as well as the case of physically realistic (e.g., logarithmic) singular potentials. We prove well-posedness results and the eventual global boundedness of solutions uniformly with respect to the initial data. In addition, we show that the separation property holds in the case of singular potentials. Thanks to these results, we are able to demonstrate the existence of a finite-dimensional attractors in the present cases as well.

Published

2011

47. Finite-dimensional global attractor for a nonlocal phase-field system

Author

Grasselli, Maurizio

Subjects

Mathematics - Dynamical Systems, Mathematics - Analysis of PDEs, 35B41, 35Q99, 80A22

Abstract

We analyze a phase-field system where the energy balance equation is linearly coupled with a nonlinear and nonlocal ODE for the order parameter $\chi$. The latter equation is characterized by a space convolution term which models particle interaction and a singular configuration potential that forces $\chi$ to take values in $(-1,1)$. We prove that the corresponding dynamical system has a bounded absorbing set in a suitable phase space. Then we establish the existence of a finite-dimensional global attractor., Comment: 14 pages

Published

2011

48. Global and trajectory attractors for a nonlocal Cahn-Hilliard-Navier-Stokes system

Author

Frigeri, Sergio and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35Q30, 37L30, 45K05, 76T99

Abstract

The Cahn-Hilliard-Navier-Stokes system is based on a well-known diffuse interface model and describes the evolution of an incompressible isothermal mixture of binary fluids. A nonlocal variant consists of the Navier-Stokes equations suitably coupled with a nonlocal Cahn-Hilliard equation. The authors, jointly with P. Colli, have already proven the existence of a global weak solution to a nonlocal Cahn-Hilliard-Navier-Stokes system subject to no-slip and no-flux boundary conditions. Uniqueness is still an open issue even in dimension two. However, in this case, the energy identity holds. This property is exploited here to define, following J.M. Ball's approach, a generalized semiflow which has a global attractor. Through a similar argument, we can also show the existence of a (connected) global attractor for the convective nonlocal Cahn-Hilliard equation with a given velocity field, even in dimension three. Finally, we demonstrate that any weak solution fulfilling the energy inequality also satisfies an energy inequality. This allows us to establish the existence of the trajectory attractor also in dimension three with a time dependent external force., Comment: 35 pages; presented at INDI2011 in Gargnano

Published

2011

49. Global Existence of Weak Solutions to a Nonlocal Cahn-Hilliard-Navier-Stokes System

Author

Colli, Pierluigi, Frigeri, Sergio, and Grasselli, Maurizio

Subjects

Mathematics - Analysis of PDEs, 35Q30, 45K05, 76T99

Abstract

A well-known diffuse interface model consists of the Navier-Stokes equations nonlinearly coupled with a convective Cahn-Hilliard type equation. This system describes the evolution of an incompressible isothermal mixture of binary-fluids and it has been investigated by many authors. Here we consider a variant of this model where the standard Cahn-Hilliard equation is replaced by its nonlocal version. More precisely, the gradient term in the free energy functional is replaced by a spatial convolution operator acting on the order parameter phi, while the potential F may have any polynomial growth. Therefore the coupling with the Navier-Stokes equations is difficult to handle even in two spatial dimensions because of the lack of regularity of phi. We establish the global existence of a weak solution. In the two-dimensional case we also prove that such a solution satisfies the energy identity and a dissipative estimate, provided that F fulfills a suitable coercivity condition., Comment: 25 pages

Published

2011

50. Analysis of the Cahn-Hilliard equation with a chemical potential dependent mobility

Author

Grasselli, Maurizio, Miranville, Alain, Rossi, Riccarda, and Schimperna, Giulio

Subjects

Mathematics - Analysis of PDEs

Abstract

The aim of this paper is to study the well-posedness and the existence of global attractors for a family of Cahn-Hilliard equations with a mobility depending on the chemical potential. Such models arise from generalizations of the (classical) Cahn-Hilliard equation due to M. E. Gurtin.

Published

2010