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Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)

Organizers: PF Gilles Lebeau (U.Nice), Ansgar Jüngel (TU Wien), Oana Ivanovici (CNRS c/o U.Nice), Arno Rauschenbeutel (WPI c/o ATI TU Wien), PF Jean-Claude Saut (U. Paris Sud & ICP), Hans Peter Stimming (WPI c/o U.Wien)

Talks


Saut, Jean-Claude WPI Seminar Room 08.135 Tue, 1. Jul 14, 15:00
Weak dispersive perturbations of nonlinear hyperbolic equations
We address the question of the influence of dispersion on the space of resolution, on the lifespan, on the possible blow-up and on the dynamics of solutions to the Cauchy problem for 'weak' dispersive perturbations of hyperbolic quasilinear equations or systems.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Klein, Christian WPI Seminar Room 08.135 Wed, 2. Jul 14, 9:45
Dispersive shocks in 2+1 dimensional systems
We present a numerical study of dispersive shocks and blow-up in 1+1 and 2+1 dimensional systems from the families of Korteweg-de Vries and nonlinear Schrödinger equations.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Lebeau, Gilles WPI Seminar Room 08.135 Wed, 2. Jul 14, 11:00
The fundamental solution of the wave operator on the Bethe lattice
We compute the fundamental solution for the wave equation on the regular infinite tree with each vortex of degree 3 (the so called Bethe lattice). We get dispersive estimates and the range of values of the effective speeds of propagation. This is a joint work with Kais Ammari.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Chiron, David WPI Seminar Room 08.135 Wed, 2. Jul 14, 14:00
The KP-I limit for the Nonlinear Schrödinger Equation
In some long wave asymptotic regime, the Nonlinear Schrödinger Equation with nonzero condition at infinity can be approximated by the Kadomtsev-Petviashvili-I (KP-I) equation. We provide some justifications of this convergence for the Euler-korteweg system, which includes the Nonlinear Schrödinger Equation. In some cases, we may obtain the (mKP-I) equation. The convergence also holds for the travelling waves of the Nonlinear Schrödinger Equation when the propagation speed approaches the speed of sound. We also give some results in this direction, as well as numerical results. This talk is a survey of various results obtained with M. Maris, S. Benzoni-Gavage and C. Scheid.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Ivanovici, Oana WPI Seminar Room 08.135 Thu, 3. Jul 14, 9:45
A parametrix construction for the wave equation inside a strictly convex domain
We describe how to obtain such a parametrix by a suitable generalization of the model case which was obtained by I-Lebeau-Planchon. The procedure is however different on several points and allows for some conceptual simplifications which we will try to highlight. From this parametrix we may then get sharp dispersion estimates by degenerate stationary phase arguments. This is joint work with R. Lascar, G. Lebeau and F. Planchon.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Planchon, Fabrice WPI Seminar Room 08.135 Thu, 3. Jul 14, 11:00
From dispersion to Strichartz: a longer journey than usual
Usually, Strichartz estimates follow almost trivially from dispersion using duality and interpolation. For the wave equation inside a model case of a strictly convex domain, however, the resulting theorem is not sharp and we will present 2 different arguments which in some sense average over the space-time regions where swallowtail singularities (where the worse loss occur) appear and recover Strichartz estimates which would be induced by cusp-like losses. This is joint work with O. Ivanovici and G. Lebeau.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Scheid, Claire WPI Seminar Room 08.135 Fri, 4. Jul 14, 9:45
Multiplicity of the travelling waves in the Kadomtsev-Petviashvili-I and the Gross-Pitaevskii equations
Explicit solitary waves are known to exist for the Kadomtsev-Petviashvili-I (KP-I) equation in dimension 2 from the work of [1] and [2]. We first address numerically the question of their Morse index. The results confirm that the lump solitary wave has Morse index one and that the other explicit solutions correspond to excited states. We then turn to the 2D Gross-Pitaevskii (GP) equation which in some long wave regime converges to the (KP-I) equation. We perform numerical simulations showing that a branch of travelling waves of (GP) converges to a ground state of (KP-I), expected to be the lump. Furthermore, the other explicit solitary waves solutions to the (KP-I) equation give rise to new branches of travelling waves of (GP) corresponding to excited states. This is a joint work with D. Chiron.
Note:   [1] S. Manakov, V. Zakharov, L. Bordag and V. Matveev, Two-dimensional solitons of the Kadomtsev-Petviashvili equation and their interaction. Phys. Lett. A 63, 205-206 (1977).
[2] D. Pelinovsky and Y. Stepanyants, New multisoliton solutions of the Kadomtsev-Petviashvili equations. Pis'ma Zh. Eksp. Teor Fiz 57, no. 1 (1993), 25-29
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Golse, François WPI Seminar Room 08.135 Fri, 4. Jul 14, 11:00
The Boltzmann equation in the Euclidean space (joint work with C. Bardos, I. Gamba and C.D. Levermore)
The Boltzmann equation is a well-known example of dissipative dynamics, because of Boltzmann's H Theorem, which is a quantitative analogue of the second principle of thermodynamics. When the Boltzmann equation is posed in the Euclidean space, the dispersion properties of the advection operator corresponding to the collisionless dynamics offsets the dissipative effect due to the collision integral. We discuss the long time behavior of the solution of the Boltzmann equation in this setting and prove the existence of a local scattering regime near global Maxwellian solutions.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Weishäupl, Rada Maria WPI Seminar Room 08.135 Fri, 4. Jul 14, 14:00
Two-component nonlinear Schrödinger system with linear coupling
We consider a system of two nonlineaer Schrödinger equations, which are coupled through a linear term in addition to the nonlinearity. We are interested in the long-time behavior and blow-up alternative of this system. In particular we want to understand the effect of the linear coupling in this setting.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Blow up and dispersion in Nonlinear PDEs" (2014)

Mauser, Norbert Julius; Universität Wien & WPI & CNRS Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:00
“Nonlinear Introduction”
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Bardos, Claude; Ulm; Paris & WPI Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:10
Nonlinear Schrödinger Equations: Analysis, Models and Numerics”
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Schiedmayer, Jörg; TU Wien Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:20
„Ultracold Atoms: Experiments, Models and Simulations“
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Golse, Francois; Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:30
“epsilon goes to zero: from linear many body to nonlinear one body equations”
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Brenier, Yann; CNRS Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:40
“Modulated Energy: Set the control for the heart of the sun”
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Stimming, Hans-Peter; Universität Wien & WPI Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 17:50
ABC: how to mimick infinity
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Mazets, Igor; TU Wien & WPI Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 18:00
Thermalization & Decoherence: Stochastics in Quantum Mechanics”
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Gottlieb, Alex; WPI Hörsaal 14, Fakultät für Mathematik Mon, 4. Aug 14, 18:10
“Correlations & Entanglement: entropy measures“
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Symposium on "Nonlinear Partial Differential Equations" (2014)

Banica, Valeria; Université d'Évry Val d'Essonne WPI Seminar Room 08.135 Mon, 6. Oct 14, 14:45
Large time behavior for the focusing NLS on hyperbolic space
In this talk I shall present some results on global existence, scattering and blow-up for the focusing nonlinear Schrödinger equation on hyperbolic space. This is a joint work with Thomas Duyckaerts.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Szeftel, Jeremie; Laboratoire Jacques-Louis Lions de l'Université Pierre et Marie Curie WPI Seminar Room 08.135 Mon, 6. Oct 14, 15:45
The instability of Bourgain-Wang solutions for the L2 critical NLS
We consider the two dimensional focusing cubic nonlinear Schrodinger equation. Bourgain and Wang have constructed smooth solutions which blow up in finite time with the pseudo conformal speed, and which display some decoupling between the regular and the singular part of the solution at blow up time. We prove that this dynamic is unstable. More precisely, we show that any such solution with small super critical L^2 mass lies on the boundary of both H^1 open sets of global solutions that scatter forward and backwards in time, and solutions that blow up in finite time on the right in the log-log regime. This is a joint work with F. Merle and P. Raphael.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Linares, Felipe; Institute for Pure and Applied Mathematics , Rio de Janeiro WPI Seminar Room 08.135 Mon, 6. Oct 14, 16:45
Propagation of regularity and decay of solutions to the k-generalized Korteweg-de Vries equation
We will discuss special regularity and decay properties of solutions to the IVP associated to the k-generalized KdV equations. In particular, for datum u_0in H^{3/4^+}(R) whose restriction belongs to H^k((b,infty)) for some kinZ^+ and bin R we prove that the restriction of the corresponding solution u(cdot,t) belongs to H^k((beta,infty)) for any beta in R and any tin (0,T). Thus, this type of regularity propagates with infinite speed to its left as time evolves.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Klein, Christian; Université de Bourgogne WPI Seminar Room 08.135 Tue, 7. Oct 14, 9:30
Multidomain spectral method for Schrödinger equations
A multidomain spectral method with compactified exterior domains combined with stable second and fourth order time integrators is presented for Schr\"odinger equations. The numerical approach allows high precision numerical studies of solutions on the whole real line. At examples for the linear and cubic nonlinear Schr\"odinger equation, this code is compared to exact transparent boundary conditions and perfectly matched layers approaches. In addition it is shown that the Peregrine breather being discussed as a model for rogue waves can be numerically propagated with essentially machine precision, and that localized perturbations of this solution can be studied.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Genoud, Francois; Universität Wien WPI Seminar Room 08.135 Tue, 7. Oct 14, 10:30
Bifurcation and stability of solitons for the asymptotically linear NLS
The purpose of this talk is to convey the idea that bifurcation theory provides a powerful tool to prove existence and orbital stability of solitons for the nonlinear Schrödinger equation. It is especially useful to obtain results for space-dependent problems, and beyond power-law nonlinearities. This will be illustrated in the case of the asymptotically linear NLS.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Colin, Mathieu; Université de Bordeaux WPI Seminar Room 08.135 Tue, 7. Oct 14, 11:45
Solitary waves for Boussinesq type systems
The aim of this talk is to exhibit specific properties of Boussinesq type models. After recalling the usual asymptotic method leading to BT models, we will present a new asymptotic model and present a local Cauchy theory. We then provide an effective method to compute solitary waves for Boussinesq type models. We will conclude by discussing shoaling properties of such models. This is a joint work with S. Bellec.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Koch, Herbert; Universität Bonn WPI Seminar Room 08.135 Tue, 7. Oct 14, 14:30
Global existence and scattering for KP II in three space dimensions
The Kadomtsev-Petviasvhili II equation describes wave propagating in one direction with weak transverse effect. I will explain the proof of global existence and scattering for three space dimensions. The key estimates are bilinear L^2 estimates and a delicate choice of norms. This is joint work with Junfeng Li.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Weishäupl, Rada Maria; Universität Wien WPI Seminar Room 08.135 Tue, 7. Oct 14, 15:30
Multi-solitary waves solutions for nonlinear Schrödinger systems
We consider a system of two coupled nonlinear Schrödinger equations in one dimension. We show the existence of solutions behaving at large time as a couple of scalar solitary waves. The proof relies on a method introduced by Martel and Merle for multi solitary waves for the scalar Schrödinger equation. Finally, we present some numerical simulations to understand more the qualitative behavior of the solitary waves.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Lannes, David; Ecole Normale Supérieure de Paris WPI Seminar Room 08.135 Wed, 8. Oct 14, 9:30
Internal waves in continuously stratified media
Many things are known about the propagation of waves at the interface of two fluids of different densities, for which dispersion plays an important role (it plays a stabilizing role controlling Kelvin-Helmholtz instabilities and balances the long time effects of the nonlinearities). When a flow is continuously stratified, the notion of wave is less clear, as well as the nature of dispersive effects. We show that they are encoded in a Sturm Liouville problem and are therefore of 'nonlocal type'; we also derive simpler, local, asymptotic models. This is a joint work with JC Saut and B. Desjardins.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Duchene, Vincent; Université de Rennes WPI Seminar Room 08.135 Wed, 8. Oct 14, 10:30
Kelvin-Helmholtz instabilities in shallow water
Kelvin-Helmholtz instabilities arise when a sufficiently strong shear velocity lies at the interface between two layers of immiscible fluids. The typical wavelength of the unstable modes are very small, which goes against the natural shallow-water assumption in oceanography. As a matter of fact, the usual shallow-water asymptotic models fail to correctly reproduce the formation of KH instabilities. With this in mind, our aim is to motivate and study a new class of shallow-water models with improved dispersion behavior. This is a joint work with Samer Israwi and Raafat Talhouk.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Mesognon, Benoit; Ecole Normale Supérieure de Paris WPI Seminar Room 08.135 Wed, 8. Oct 14, 11:45
Long time control of large topography effects for the water waves equations
We explain how we can get a large time of existence for the Water-Waves equation with large topography variations. We explain the method on the simplier example of the Shallow-Water equation and then present its implementation for the WW equations itselves.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Wahlen, Erik; Lunds universitet WPI Seminar Room 08.135 Wed, 8. Oct 14, 14:30
Solitary water waves in three dimensions
I will discuss some existence results for solitary waves with surface tension on a three-dimensional layer of water of finite depth. The waves are fully localized in the sense that they converge to the undisturbed state of the water in every horizontal direction. The existence proofs are of variational nature and different methods are used depending on whether the surface tension is weak or strong. In the case of strong surface tension, the existence proof also gives some information about the stability of the waves. The solutions are to leading order described by the Kadomtsev-Petviashvili I equation (for strong surface tension) or the Davey-Stewartson equation (for weak surface tension). These model equations play an important role in the theory. This is joint work with B. Buffoni, M. Groves and S.-M. Sun.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Keraani, Sahbi; Université de Rennes WPI Seminar Room 08.135 Thu, 9. Oct 14, 9:30
On the inviscid limit for a 2D incompressible fluid
"In this talk, we will present some results of inviscid limit of the 2D Navier-stokes system with data in spaces with BMO flavor. The issue of uniform (in viscosity) estimates for these equations will be also considered. It is a joint work with F. Bernicot and T. Elgindi."
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Ehrnström, Mats; Norwegian University of Science and Technology WPI Seminar Room 08.135 Thu, 9. Oct 14, 11:00
On the Whitham equation (and a class of non-local, non-linear equations with weak or very weak dispersion)
We consider a class of pseudodifferential evolution equations of the form \(u_t +(n(u)+Lu)_x = 0\), in which L is a linear, generically smoothing, non-local operator and n is a nonlinear, local, term. This class includes the Whitham equation, the linear terms of which match the dispersion relation for gravity water waves on finite depth. In this talk we present recent results for this equation and its generalisations, including periodic bifurcation results, existence of solitary waves via minimisation, and well-posedness (local). In particular, although for small waves, small times and small frequencies this equation bears many similarities with the Korteweg—de Vries equation, it displays some very interesting differences for ’large' solutions.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Achleitner, Franz; TU Wien WPI Seminar Room 08.135 Thu, 9. Oct 14, 14:30
Travelling waves for a non-local Korteweg–de Vries–Burgers equation
We study travelling wave solutions of a Korteweg–de Vries–Burgers equation with a non-local diffusion term. This model equation arises in the analysis of a shallow water flow by performing formal asymptotic expansions associated to the triple-deck regularisation (which is an extension of classical boundary layer theory). The resulting non-local operator is a fractional derivative of order between 1 and 2. Travelling wave solutions are typically analysed in relation to shock formation in the full shallow water problem. We show rigorously the existence of these waves. In absence of the dispersive term, the existence of travelling waves and their monotonicity was established previously by two of the authors. In contrast, travelling waves of the non-local KdV–Burgers equation are not in general monotone, as is the case for the corresponding classical KdV–Burgers equation. This requires a more complicated existence proof compared to the previous work. Moreover, the travelling wave problem for the classical KdV–Burgers equation is usually analysed via a phase-plane analysis, which is not applicable here due to the presence of the non-local diffusion operator. Instead, we apply fractional calculus results available in the literature and a Lyapunov functional. In addition we discuss the monotonicity of the waves in terms of a control parameter and prove their dynamic stability in case they are monotone.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Falconi, Marco; Université de Rennes WPI Seminar Room 08.135 Fri, 10. Oct 14, 9:30
Schrödinger-Klein-Gordon system as the classical limit of a Quantum Field Theory dynamics
In this talk it is discussed how a non-linear system of PDEs, the Schrödinger-Klein-Gordon with Yukawa coupling, emerges naturally as the limiting dynamics of a quantum system of non-relativistic bosons coupled with a bosonic scalar field. The correspondence of the "quantum" (linear) and "classical" (nonlinear) dynamics, often assumed in physics as an heuristic theorem, is made rigorous. After a brief introduction of the quantum system (on a suitable symmetric Fock space), we identify the classical counterparts of the important objects of the quantum theory: time-evolved observables and states. In the classical context, the S-KG dynamics plays a fundamental role, and the study of its properties might provide a valuable indication of important underlying properties of the quantum system, that are much more difficult to investigate. This is a joint work with Zied Ammari.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

Stürzer, Dominik; TU Wien WPI Seminar Room 08.135 Fri, 10. Oct 14, 10:45
Spectral Analysis and Long-Time Behavior of a Linear Fokker-Planck Equation with a Non-Local Perturbation
We discuss a linear Fokker-Planck (FP) equation with an additional perturbation, given by a convolution with a massless kernel. In this talk we will prove the existence of a unique normalized stationary solution of the perturbed equation, and show that any solution converges towards the stationary solution with an exponential rate independent of the perturbation. The first step of the analysis consists of characterizing the spectrum of the (unperturbed) FP-operator in exponentially weighted $L^2$-spaces. In particular the FP-operator has a one-dimensional kernel (spanned by the stationary solution), possesses a spectral gap, and solutions of the unperturbed equation converge exponentially to the stationary solution. Then we demonstrate that adding a convolution with a massless kernel to the FP-operator leaves the spectrum (and the spectral gap) unchanged, i.e. the perturbed FP operator is an isospectral deformation of the FP-operator. Finally we are able to give a similarity transformation between the unperturbed and the perturbed FP operator, which proves that the corresponding semigroups have the same decay properties.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Dispersive equations with nonlocal dispersion - III" (2014)

QingLin Tang (University of Singapore) WPI, OMP 1, Seminar Room 08.135 Thu, 25. Jun 15, 10:00
Computing ground states of spin 2 Bose-Einstein condensates by the normalized gradient flow
In this talk, an efficient and accurate numerical method will be proposed to compute the ground state of spin-2 Bose-Einstein condensates (BECs) by using the normalized gradient flow (NGF) or imaginary time method (ITM). The key idea is twofold. One is to find the five projection or normalization conditions that are used in the projection step of NGF/ITM, while the other one is to find a good initial data for the NGF/ITM. Based on the relations between chemical potentials and the two physical constrains given by the conservation of the totlal mass and magnetization, these five projection or normalization conditions can be completely and uniquely determined in the context of the the discrete scheme of the NGF discretized by back-Euler finite difference (BEFD) method, which allows one to successfully extend the most powerful and popular NGF/ITM to compute the ground state of spin-2 BECs. Additionally, the structures and properties of the ground states in a uniform system are analysed so as to construct efficient initial data for NGF/ITM. Extensive numerical results on ground states of spin-2 BECs with ferromagnetic/nematic/cyclic interaction and harmonic/optical lattice potential in one/two dimensions are reported to show the efficiency of our method and to demonstrate some interesting physical phenomena.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Working group on "Efficient numerics for NLS" (2015)

González de Alaiza Martínez, Pedro (CEA) WPI, Seminar Room 08.135 Tue, 29. Sep 15, 10:30
Mathematical models for terahertz emissions by laser-gas interaction
Terahertz (THz) emissions have nowadays important applications such as security screening and imaging. Laser-gas interaction reveals itself to be a promising technique to generate broadband and intense THz sources suitable for these applications. In this talk, I will explain recent mathematical models and their underlying physics explaining the THz radiation generated when ultrafast laser pulses ionize a gas at high intensities. Solutions to the model equations will be compared with direct numerical simulations.
  • Thematic program: Blow-up and Dispersion in nonlinear Schrödinger and Wave equations (2014)
  • Event: Workshop on "Quasilinear and nonlocal nonlinear Schrödinger equations" (2015)

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