Alain BACHELOT
Professeur émérite
Université de Bordeaux

• Thèmes de recherche
   
  • Equations aux dérivées partielles hyperboliques
  • Théorie de la diffusion
  • Champs quantiques en relativité générale
  • Trous noirs
  • Cosmologie mathématique
    
  • Electromagnétisme numérique

• Curriculum Vitae

• Généalogie académique

• Publications

• Videos  (NEW)

• Colloque "Equations hyperboliques et physique mathématique"  on the Hyperspace (NEW)

• Prépublications

• Résumés

• Directions de thèses

• Sic transit, ce monde
• English version

Dernière mise à jour, 21 décembre 2018.

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CURRICULUM VITAE







• Alain BACHELOT, né à Paris en 1957, de nationalité française, marié avec Agnès Motet, trois enfants (dont Bénédicte Bachelot, PhD)

• Diplômes en mathématiques :
  

  Agrégation (1979)

  Doctorat (1981)

  Habilitation (1988)

• Distinctions :

  Prix "Institut Henri Poincaré / Gauthier-Villars" en physique théorique, 1998.

  Featured Review in Mathematical Reviews, 1999.

  Promotion à la classe exceptionnelle des professeurs des universités par le CNU, 2009.

  Chevalier dans l'Ordre des Palmes Académiques, 2013.

  Promotion au dernier échelon de la classe exceptionnelle par le CNU, 2014

  Eméritat, septembre 2018.
  

  
  

  
  

• Positions :

  à l'Ecole Normale Supérieure de Rabat-Souissi, Maroc :

  Assistant agrégé (1982-1984)

  à l'Université de Bordeaux :

  Assistant agrégé (1984)

  Maître de conférences (1988)

  Professeur des universités, seconde classe (1990)

  Professeur des universités, première classe (1996)

  Professeur des universités, classe exceptionnelle, 1° échelon (2009-2014)

  Professeur des universités, classe exceptionnelle, 2ème échelon (2014-2018)

  Professeur émérite (2018-.)

  
  

  Conseiller scientifique au CEA (2000-2008).

• Enseignement : visiter cette page.

• Responsabilités administratives :

Président de la Commission de spécialistes 26° section (1991-1994)

Directeur de l'Ecole doctorale de mathématiques et informatique de Bordeaux (1995-1998)

Membre élu du Conseil National des Universités, membre du bureau (1996-1998)

Membre nommé au Conseil National des Universités (1999-2003)

Directeur de l'UMR CNRS 5466 de mathématiques appliquées (1999-2002) et du LRC CEA M03 (2000-2002)

Membre (2002-2007) et Secrétaire (2003-2007) du Conseil Scientifique de la SMF

Membre du Comité pour l'égalité professionnelle hommes/femmes - Ministère de la Recherche (2006-2010)

Président de la Commission Consultative 26° section (2008-2010)

Responsable de la licence d'ingénierie mathématique (2007-2010)

Responsable du Master MIMSE (2010-2015)

Responsable de l'équipe "EDP et physique mathématique" (2010-2014)

• Equations hyperboliques linéaires et non-linéaires des champs dans l'espace de Minkowski
  
  • problème de diffusion inverse pour l'équation non linéaire de Klein-Gordon (1981)
  • problème de Cauchy global à données peu régulières pour des systèmes de Klein-Gordon-Schrödinger (1983)
  • produit de distributions vectorielles dans les espaces de Besov (avec B. Hanouzet, 1983)
  • partition de l'énergie des solutions d'un système hyperbolique (1985)
  • diffraction par un potentiel $t$-périodique pour des systèmes hyperboliques (avec V. Petkov, 1987)
  • problème de Cauchy global à petites données pour les systèmes de Dirac-Klein-Gordon Lorentz-invariants (1988)
  • existence de solutions globales de grande énergie pour ces systèmes (1988-1989)
  • problème de Cauchy global pour des systèmes hyperboliques à nonlinaérité non locale (2005)

• Théorie des champs en Relativité Générale, Trous Noirs, Cosmologie branaire (Thème principal)

• système de Maxwell : existence et complétude asymptotique des opérateurs d'onde en métrique de Schwarzschild (1991) et de De Sitter-Schwarzschild (1992)
• équation de Regge-Wheeler : existence de la matrice de diffraction S, prolongement méromorphe de S, calcul effectif des résonances d'un trou noir sur CRAY 2 du CCVR (avec A. Bachelot-Motet., 1993)
• équation non linéaire de Klein-Gordon en métrique de Schwarzschild : problème de Cauchy global, asymptotiques (avec J-P. Nicolas, 1993)
• équation linéaire de Klein-Gordon en métrique de Schwarzschild : complétude asymptotique des opérateurs d'onde Dollard-modifiés, seconde quantification du champ, opérateur de scattering quantique (1994)
• diffusion d'un champ de Klein-Gordon par une étoile en effondrement gravitationnel (1995)
• polarisation du vide quantique à l'horizon d'un trou noir (radiation Hawking) (1997)
• effet Hawking (1998)
• émission de particules et d'antiparticules par un trou noir chargé (1999)
• diffusion des ondes par une violation de la causalité (2002)
• superradiance des trous noirs chargés (2004)
  
• champs de Dirac-Klein-Gordon globaux dans des espaces-temps trous noirs (2005)
• champs de Dirac globaux dans l'univers Anti-de Sitter (2007)
• propagation et diffusion en cosmologie branaire RS2 (2008)
• équation de Klein-Gordon en cosmologie Anti-de Sitter AdS⁵ (2010)
• nouvelles conditions aux bord de l'univers Anti-de Sitter (2012)
• stabilité linéaire d'une brane de De Sitter (2014)
• bulle de néant de Witten, trou de vers de Hawking (2016)
• univers dodécaédriques en accélération (avec A. Bachelot-Motet, 2016)
• asymptotique d'ondes à une singularité cosmologique temporelle (2018)
  

• Méthodes numériques en électromagnétisme

• potentiels retardés pour un obstacle conducteur en 3D+1 (avec A. Pujols, 1991)
• couplage éléments finis / potentiels retardés en 3D+1 (avec V. Lubet, 1994)
• potentiels retardés pour un obstacle absorbant en 3D+1 (avec V. Lange 1995)
• parallélisation d'un code par potentiels retardés 3D+1 (avec P. Charrier, 1997)
• diffraction par des obstacles hétérogènes en 3D+1 (avec L. Bounhoure, 1998)
• couplage méthode multipoles / discrétisation microlocale / ordre élevé (avec E. Darrigrand, L. Gatard, K. Mer, 2002-2007)
• méthode multipoles pour l'équation des radiosités (avec J. Morice, K. Mer, 2007)

Articles dans des revues à comité de lecture / Articles in Journal with referee
 
 

Conférences publiées avec comité de lecture / Proceedings with referee

http://www.ladocumentationfrancaise.fr/rapports-publics/064000887/index.shtml

A. BACHELOT. Les mathématiques des trous noirs, in Brèves de maths, Martin Andler, Liliane Bel, Sylvie Benzoni, Thierry Goudon, Cyril Imbert, Antoine Rousseau, Editions Nouveau Monde, 2014, en ligne sur

A. BACHELOT. Voir les trous noirs, in Brèves de maths, Martin Andler, Liliane Bel, Sylvie Benzoni, Thierry Goudon, Cyril Imbert, Antoine Rousseau, Editions Nouveau Monde, 2014, en ligne sur

Retour à la page d'accueil. / Back to Home Page

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Prépublications / Preprints

A. BACHELOT. The Dirac system on the Anti-de Sitter Universe. http://arxiv.org/abs/0706.1315.

A. BACHELOT. Wave Propagation and Scattering for the RS2 Brane Cosmology Model.  http://arxiv.org/abs/0812.4197.

A. BACHELOT. The Klein-Gordon Equation in Anti-de Sitter Cosmology. http://arxiv.org/abs/1010.1925

A. BACHELOT. New Dynamics in the Anti-De Sitter Universe AdS^5. http://arxiv.org/pdf/1112.6138v2

A. BACHELOT. On the Klein-Gordon equation near a De Sitter brane in an Anti-de Sitter bulk,  arXiv:1402.1071v3

A. BACHELOT. Waves in the Witten Bubble of Nothing and the Hawking Wormhole, arXiv:1601.03682

A. BACHELOT-MOTET, A.BACHELOT. Waves on accelerating dodecahedral universes,  arXiv:1609.00806

A. BACHELOT. Wave asymptotics at a cosmological time-singularity,  arXiv:1806.01543

 


 


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Résumés / Abstracts







• A. BACHELOT. Problème inverse de diffusion non linéaire. C. R. Acad. Sc. Paris, Série I, 293:121-124, 1981.

  We prove the Scattering Operator for the Non Linear Klein-Gordon Equation with interacting $q(x)u^3$ determines the coupling potential $q(x)$.

   

• A. BACHELOT , B. HANOUZET.Applications bilinéaires compatibles avec un système différentiel à coefficients variables. C. R. Acad. Sc. Paris, Série I, 299:543-546, 1984.

  Given a square matrix $(f_{j,k}(x))$ compatible with the system $A(x, D)=\sum_{i=1}^n A_i(x)D_i$ we define $\sum_{1\leq j, k\leq N} f_{j,k}(x)u_iu_k$ on Sobolev or Besov subspaces. New results on compensated compacteness are obtained for systems with variable coefficients.

   

• A. BACHELOT. Problème de Cauchy pour des systèmes hyperboliques semi-linéaires. Ann. Inst. Henri Poincaré, Analyse non linéaire, 1(6):453-478, 1984.

  We consider the Cauchy problem for certain semilinear hyperbolic systems such as the Schroedinger-Klein-Gordon equations and the coupled Schroedinger equations of the type $-i\psi\sb t-\Delta \psi =F(\psi,\phi);\ -i\phi\sb t-\Delta \phi =G(\psi,\phi)$ in three space dimensions. - In contrast to former results the nonlinearities are general enough to exclude the use of energy conservation but allow the use of charge conservation. Essentially they have to grow quadratically. Under these assumptions a global existence and uniqueness result is proven e.g. in the space $C\sp 0({\bbfR},L\sp 4({\bbfR}\sp 3)\cap L\sp 2({\bbfR}\sp 3)).$ The necessary a-priori-bounds can be given by use of the well-known $L\sp p-L\sp{p'}$-estimates for the solutions of the linear problem. - In the second part of the paper the Dirac-Klein-Gordon system with a generalization of the Yukawa coupling is considered and a local existence and uniqueness result is proven.

   

• A. BACHELOT. Convergence dans $L^p(\BbbR^n+1)$ de la solution de l'équation de Klein-Gordon vers celle de l'équation des ondes. Ann. Fac. Sci. Toulouse, 8(1):37-60, 1986.

  We study the continuity of the solution of the Klein-Gordon equation with respect to the mass. We prove the convergence in $L\sp q(R\sb t\times R\sp n\sb x)$ of the solution of the inhomogeneous Klein-Gordon equation to the solution of the wave equation, with same initial data, when the mass tends to 0; we use this result to solve the inverse scattering problem for the equation $$ \square u+m\sp 2u=\sum\sb{k\ge 1}q\sb k(x)\vert u\vert\sp{2k}u.$$

   

• A. BACHELOT. Equipartition de l'énergie pour les systèmes hyperboliques et formes compatibles. Ann. Inst. Henri Poincaré - Physique théorique, 46(1):45-76, 1987.

  Given a hyperbolic system I $\partial\sb t\psi -\sum\sp{n}\sb{i=1}A\sb i\partial\sb x\psi$ and a sesquilinear form f, $I(t)=\int f(\psi (t,x),\psi (t,x))dx$ tends to zero when $\vert t\vert \to \infty$ for any finite energy solution $\psi$ if and only if f is compatible with the system in the sense of B. Hanouzet and J. L. Joly, i.e. f(Ker$\sum\sp{n}\sb{i=1}\xi\sb iA\sb i)=0$ for a.e. $\xi \in {\bbfR}\sp n$. If n is odd and the multiplicity of the system is constant, $I(t)=0$ after a finite time for solutions having initial data with compact support. We also study the hermitian systems I $\partial\sb t\psi -\sum\sp{n}\sb{i=1}A\sb i\partial\sb{x\sb i}\psi +iB\psi$. We prove the equipartition of energy for the hyperbolic equations $\partial\sp 2\sb{tt}\psi -A\sp 2(d)\psi +B\sp 2\psi =0$, the wave equation, the elastic waves in anisotropic media, the magneto-elastic waves, the Klein-Gordon equation, Maxwell's equations, the Dirac system and the Neutrino equation.

   

• A. BACHELOT, V. PETKOV.Existence des opérateurs d'ondes pour les systèmes hyperboliques avec un potentiel périodique en temps. Ann. Inst. Henri Poincaré - Physique théorique, 47(4):383-428, 1987.

  We prove the existence of the scattering operator for the wave equation with a potential which is periodic in time and has compact support in space, in dimension greater than or equal to 3, provided the energy is uniformly bounded. The key result is the decay of the local energy. We get strong convergence by using the compactness of the local evolution operator, derived from a microlocal analysis of the propagation of singularities. In the case where the dimension is odd, the decay is exponential for initial data: i) with compact support and ii) included in a subspace of finite codimension. We give some sufficient conditions for the boundedness of the energy by studying the spectrum of the local evolution operator. We extend these results to first order hermitian systems with arbitrary multiplicity and with a periodic potential such as the Dirac system in a periodic electromagnetic field.

   

• A. BACHELOT. Problème de Cauchy global pour des systèmes de Dirac-Klein-Gordon. Ann. Inst. Henri Poincaré - Physique théorique, 48(4): 387-422, 1988.

  We consider a massive Dirac system quadratically coupled with a wave equation in three space dimensions. The global Cauchy problem is well posed if the nonlinearities satisfy some algebraic conditions related to the Lorentz-invariance, the null condition and the compatibility of a sesquilinear form with the Dirac system. The fundamental example is the pseudoscalar Yukawa model of nuclear forces. We use some $L\sp 2-L\sp{\infty}$ estimates in Sobolev spaces associated with the Lorentz metric, for the Dirac equation with a potential. We establish the completeness of the scattering operator for an electron in a free electromagnetic field.

   

• A. BACHELOT. Global existence of large amplitude solutions for Dirac-Klein-Gordon systems in Minkowski space. In Non linear Hyperbolic Problems, volume 1402 of Lecture Notes in Math., pages 99-113. Springer Verlag, 1989.

  We prove the existence of some Global Solutions, with Large Energy, of relativistic Dirac-Klein-Gordon systems with quadratic coupling and cubic autointeractions in Minkowski space.

   

• A. BACHELOT. Global existence of large amplitude solutions for non linear massless Dirac equations. Portugaliae Math., 46(5):455-473, 1989.

  We prove the existence of global solutions of the Cauchy problem for the nonlinear massless Dirac equation, without assumptions on the ``size'' of the smooth initial data and only assuming the smallness of the Chiral invariant. Moreover we study the asymptotic behaviour of the solution, namely the equipartition of energy and the decay of Lorentz-invariant products.

   

• A. BACHELOT. Gravitationnal Scattering of Electromagnetic Field by Schwarzschild Black Hole. Ann. Inst. Henri Poincaré - Physique théorique, 54(3):261-320, 1991.

  The paper is devoted to the electromagnetic scattering by a spherical black-hole in the Schwarzschild spacetime. Some wave operators are introduced, yielding an electromagnetic field far from the black-hole ($W\sb 0\sp \pm$) and near the Schwarschild radius ($W\sp \pm\sb 1$). The existence of the scattering operator is proved by the Birman-Kato method. The asymptotic completeness of $W\sp +\sb 1$ implies that near the horizon, the fields of finite redshifted energy are described by ingoing plane waves. In the Kruskal universe, the same argument for $W\sp \pm\sb 0$ and $W\sp +\sb 1$ allows the definition of the solution on the future horizons. The scattering operator can be approximated by putting the impedance condition on the stretched horizon, a fact that justifies the Membrane Paradigma {\it D. A. MacDonald} and {\it W. M. Suen}, Phys. Rev. D 32, 848-871 (1985)].

   

• A. BACHELOT. Scattering of electromagnetic field by de Sitter-Schwarzschild black-hole. In Non linear hyperbolic equations and field theory, volume 253 of Research Notes in Mathematics, pages 23-35. Pitman, 1992.

  We prove the existence and asymptotic completeness of the Wave Operators describing the asymptotic behaviours of the electromagnetic field at the Black-Hole Horizon and at the Cosmological Horizon.

   

• A. BACHELOT, J-P. NICOLAS.Equation non linéaire de Klein-Gordon dans des métriques de type Schwarzschild. C. R. Acad. Sc. Paris, Série I, 316:1047-1050, 1993.

  We solve the global Cauchy problem for the non linear Klein-Gordon equation outside a spherical Black Hole. On the Black Hole Horizon the field satisfies the impedence condition of T. Damour. If the space time is asymptotically flat, the massless fields satisfy the Sommerfeld condition at infinity.

   

• A. BACHELOT, A. MOTET-BACHELOT. Les résonances d'un trou noir de Schwarzschild. Ann. Inst. Henri Poincaré - Physique théorique, 59(1):3-68, 1993.

  This paper is devoted to the theoretical and computational investigations of the scattering frequencies of scalar, electromagnetic, gravitational waves around a spherical black hole. We adopt a time dependent approach: construction of wave operators for the hyperbolic Regge-Wheeler equation; asymptotic completeness; outgoing and incoming spectral representations; meromorphic continuation of the Heisenberg matrix; approximation by dumping and cut-off of the potentials and interpretation of the semigroup $\bbfZ(t)$ in the framework of the membrane paradigm. We develop a new procedure for the computation of the resonances by the spectral analysis of the transient scattered wave, based on Prony's algorithm.

   

• A. BACHELOT. Asymptotic Completeness for the Klein-Gordon Equation on the Schwarzschild Metric. Ann. Inst. Henri Poincaré - Physique théorique, 61(4):411-441, 1994.

  We prove the strong asymptotic completeness of the wave operators, classic at the horizon and Dollard-modified at infinity, describing the scattering of a massive Klein-Gordon field by a Schwarzschild black hole. The scattering operator is unitarily implementable in the Fock space of free fields.

   

• A. BACHELOT, V. LANGE. Time dependent integral method for Maxwell's system with impedance boundary condition. In 10th International Conference on Boundary Element Technology, BETECH95, pages 137-144. Computational Mechanics Publications, 1995.

  We solve the problem of diffraction of an electromagnetic wave by an absorbing body using a boundary integral method in time-domain directly. We prove the existence and uniqueness of the solution of this problem. We obtain the continuity and a relation of coercivity for the associated time-dependent formulation in this time functional framework. The discret approximation of the variational formulation leads to a stable marching-in-time scheme.

   

• A. BACHELOT, V. LUBET. On the coupling of boundary element and finite element methods for a time problem. In G. Cohen, editor, Third International Conference on Mathematical and Numerical Aspects of Wave Propagation Phenomena, pages 130-139. SIAM-INRIA, 1995.

  Abstract. We consider the problem of scattering transient waves, by an inhomogeneous object, in Èsup2(dfo()3). The idea consists in coupling a finite element resolution in the volume including all inhomogeneities, with an integral equation expressing the perfectly transparent condition on the boundary. This condition, which comes from Kirchhoff's formula, introduces single and double layer retarded potentials. The integral operator can be studied, according to the Ha-Duong approach, with Fourier-Laplace transform. That leads us to the associated harmonic problem, for which we prove existence and uniqueness. We also construct another formulation of the problem which satisfies properties of coercivity. The discretization of the first time-space variational formulation conducts to a time-stepping scheme, for which we present numerical computations.

   

• A. BACHELOT. Scattering of Scalar Fields by Spherical Gravitational Collapse. J. Math. Pures Appl., 76(2):155-210, 1997.

  We study the scattering of a scalar field, massive or massless, by a collapsing spherical star. The main point of interest is the infinite Doppler effect measured by an observer, at rest in Schwarzschild coordinates. We construct the functional framework associated with this phenomenon, and we prove the existence and strong asymptotic completeness of the wave operators describing the scattering of the field by the space-time curvature, and the asymptotically characteristic moving boundary of the star.

   

• A. BACHELOT, A. PUJOLS. Décroissance de l'énergie locale d'une onde diffusée par un obstacle inhomogène. Rev. Roumaine Math. Pures et Appl., 41(7-8):451-459, 1997.

  We prove the decay of the local energy of an acoustic wave, scattered by an inhomogeneous obstacle. We establish that this wave is eventually outgoing.

   

• A. BACHELOT. Quantum Vacuum Polarization at the Black-Hole Horizon. Ann. Inst. Henri Poincaré - Physique théorique, 67(2):181-222 1997.

  We prove in the case of the Klein-Gordon quantum field, the emergence of the Hawking-Unruh state at the future Black-Hole horizon created by a spherical gravitational collapse. This is a rigorous proof of the famous result by S. Hawking on the Quantum Radiation near the Black-Hole Horizon.

   

• A. BACHELOT, P. CHARRIER, A. PUJOLS, D. ROUART. Parallel Algorithm for Solving Time Convolution Equations and Application to CEM. In 8th SIAM Conference on Parallel Processing for Scientific Computing, Minneapolis 1997, (CD-ROM). SIAM, 1997.

  We present and analyse a parallel algorithm for solving time convolution equations. We consider applications to the marching-in-time-scheme of the Time Dependent Integral Method in electromagnetic scattering.

   

• A. BACHELOT. The Hawking Effect. Ann. Inst. Henri Poincaré - Physique théorique, 1998.

  We consider a spherical star, stationary in the past, collapsing to a Black-Hole in the future. Assuming the quantum state of a Klein-Gordon field to be the Fock vacuum in the past, we prove that an observer at rest in the Schwarzschild coordinates, will measure a thermal state with the Hawking temperature, at the last time of the gravitational collapse.

   

• A. BACHELOT. Creation of fermions at the charged black-hole horizon. Ann. Henri Poincaré, 2000.

  We investigate the quantum state of the Dirac field at the horizon of a charged black-hole formed by a spherical gravitational collapse. We prove this state satisfies a KMS condition with the Hawking temperature and the chemical potential associated with the mass and the charge of the black-hole. Moreover, the fermions with charge of same sign to that of the black-hole are emitted more readily than those of opposite charge. It is a spontaneous loss of charge of the black-hole due to the quantum vacuum polarization.

   

• A. BACHELOT, L. BOUNHOURE, A. PUJOLS. Couplage éléments finis-potentiels retardés pour la diffraction électromagnétique par un obstacle inhomogène. Numer. Math., 2001.

  We investigate the coupling of finite elements and retarded potentials for an electromagnetic scattering problem by an inhomogeneous obstacle. We construct several variational formulations and we investigate the stability and the convergence of these methods.

   

• A. BACHELOT. Global properties of the wave equation on non globally hyperbolic manifolds. J. Math. Pures Appl., 2001.

  We introduce a class of four dimensional Lorentzian manifolds with closed curves of null type or timelike. We investigate some global problems for the wave equation: uniqueness of solution with data on a changing type hypersurface; existence of resonant states; scattering by a violation of the chronology; global Cauchy problem and asymptotic completeness of the wave operators for the chronological but non-causal metrics.

   

• A. BACHELOT. Superradiance and Scattering of the Charged Klein-Gordon Field by a Steplike Electrostatic Potential. J. Math. Pures Appl., 2004.

  We develop the scattering theory for the charged Klein-Gordon equation on $\RR_t\times\RR_x$, when the electrostatic potential $A(x)$ has different asymptotics $a^{\pm}$ as $x\rightarrow\pm\infty$. In this case, the conserved energy is not positive definite (Klein Paradox). We construct the spectral representation for the harmonic equation. Since $a^+\neq a^-$, the distorded Fourier transform has to be defined on weighted $L^2$-spaces, and it can appear spectral quantities of new type, that are neither eigenvalue, nor resonance. These so called "hyperradiant modes" are real singularities of the Green function, and lead to polynomialy increasing solutions in time. We investigate the asymptotic behaviours of the solutions as $t\rightarrow\pm\infty$, and we establish the existence of a Scattering Operator of which the symbol has a norm strictly larger than 1, for the frequencies in $(a^-,a^+)$. We apply these results to the DeSitter-Reissner-Nordstr{\o}m metric, to rigorously justify the notion of superradiance of the charged black-holes.

   

• A. BACHELOT. Global Cauchy problem for semilinear hyperbolic systems with non-local nonlinearities. Applications to Dirac equations. J. Math. Pures Appl., 2006.

  We investigate the global Cauchy problem for a class of semilinear hyperbolic systems where the interaction can be non local in space and time. We establish global existence theorems for the initial value problem when the non linearity is dissipative in a weak sense, and satisfies the causality condition. The argument is abstract and the technique is based on the non-linear resolvent. We apply these results to get low regularity global solutions of several models for relativistic field theory : the Dirac-Maxwell-Klein-Gordon system, and the Thirring model on the Minkowski space-time $\RR^{1+1}$; the Dirac-Klein-Gordon system on Schwarzschild type manifolds, or outside a star undergoing a gravitational collapse to a black-hole.

 

• A. BACHELOT. Global waves with non positive energy in general relativity. Serdica. Math. J., 2008.

  In this paper we present a survey of some recent results on the global existence and the asymptotic behaviour of waves, when the conserved energy is not definite positive. This unusual situation arises in important cosmological models of the General Relativity where the gravitational curvature is very strong. We consider the case of the closed time-like curves (violation of the causality) [1], and the charged black-holes (superradiance) [3].

 

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Directions de thèses / Doctoral Students

 

   
1. Agnès PUJOLS, 31.10.1991, Ingénieur CEA.
   
2. Jean-Philippe NICOLAS, 10.01.1994, Habilitation : 26.02.1999, Professeur des universités, Université de Brest.
   
3. Valérie LUBET, 5.12.1994, Professeur des écoles.
   
4. Virginie LANGE, 28.10.1995, Ingénieur DASSAULT.
   
5. Agnès LECOMPTE, 7.07.1997, Ingénieur ASTRIUM.
   
6. Laurent BOUNHOURE, 4.12.1998, Ingénieur CS.
   
7. Eric DARRIGRAND, 25.09.2002, Maître de conférence, Université Rennes 1.
   
8. Fabrice MELNYK, 12.12.2002, Professeur second degrés.
   
9. Ludovic GATARD, 24.09.2007, Professeur agrégé.
   
10. Jacques MORICE, 17.10.2007, Ingénieur INRIA (CIRIC).
     
    

Retour aux Publications / Back to Publications

Retour à la page d'accueil. / Back to Home Page

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Alain BACHELOT  
Professor Emeritus
University of Bordeaux


Address :

Institute of Mathematics of Bordeaux 

351, cours de la Libération 

F-33405 TALENCE cedex 

Tél : (33 5) / (05) 40 00 60 63 

Fax. (33 5) / (05) 40 00 26 26


Building A33, room 158


E-mail : alain.bachelot@u-bordeaux.fr   




Main fields of interest  

Hyperbolic Partial Differential Equation
Scattering Theory
Quantum Fields in General Relativity
Mathematical Cosmology
Black-Holes 
Numerical Electromagnetism 
More details :

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To visit the University of Bordeaux, the UF "mathematics and interactions", the Library, the Institute, the Team of PDE and Mathematical Physics, or to see Newton again.

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CURRICULUM VITAE

Alain BACHELOT  born at Paris in 1957, french nationality, married with Agnès Motet, three children (including Bénédicte Bachelot, PhD)

Degrees in mathematics :

• Agrégation (1979)
• PhD thesis (1981)
• Habilitation (1988)

Distinctions : 

• "Institut Henri Poincaré / Gauthier-Villars" Prize in theoretical physics, 1998
• Featured Review in Mathematical Reviews, 1999
• Distinguished Professor, first grade (CNU, 2009)
• Chevalier of the Order of Academic Palms (2013)
• Second grade of Distinguished Professor (CNU, 2014)
• Professor Emeritus (2018)
  

• Tenured Assistant Professor (1984)
• Associate Professor (1988)
• Full Professor (1990)
• Distinguished Professor (2009-2018)
• Professor Emeritus (2018 to present)
  
• Chair of the "Ecole doctorale de mathématiques et informatique de Bordeaux" (1995-1998)
• Chair of the CNRS Laboratory of Applied Mathematics (1999-2002)
• Chair of the laboratory LRC M03 of the french atomic agency CEA (2000-2002)
• Chair of the team "PDE and mathematical physics" (2010-2014)
• Responsible of the MASTER MIMSE (2010-2015)

• Linear and Non Linear Fields Equations on Minkowski Space-Time
   
  • Inverse Scattering for Non Linear Klein-Gordon Equation (1981)
  • Global Cauchy Problem with Non Regular Data for the Klein-Gordon-Schrödinger System (1983)
  • Product of Vectorial Distributions in Besov Spaces (1983)
  • Partition of Energy for Hyperbolic Systems(1985)
  • Scattering by T-Periodic Potential for Hyperbolic Systems (with V. Petkov, 1987)
  • Global Cauchy Problem for Lorentz-Invariant Dirac-Klein-Gordon Systems (1988)
  • Global Solutions with Large Amplitude for Relativistic Dirac-Klein-Gordon Systems (1988-1989)
  • Global Cauchy Problem for Semilinear Hyperbolic Systems with Non-Local Nonlinearities (2005)
   
• Black-Holes and Mathematical Cosmology (Main Field of Research)
   
  • Maxwell System: Existence and Asymptotic Completeness of Wave Operators on Schwarzschild (1991) or De Sitter-Schwarzschild (1992) Metrics
  • Regge-Wheeler Equation: Existence Of the Scattering Matrix S, Meromorphic Continuation of S, Computations of the Black-Hole Resonances on CRAY 2 (with A. Bachelot-Motet., 1993)
  • Non Linear Klein-Gordon Equation on Schwarzschild metric : Global Cauchy Problem, Asymptotic Profiles (with J-P. Nicolas, 1993)
  • Linear Klein-Gordon Equation on Schwarzschild metric : Asymptotic Completeness, Second Quantization, Quantum Scattering Operator (1994)
  • Scattering of Klein-Gordon Field by Gravitational Collapse (1995)
  • Quantum Vacuum Polarization at the Black-Hole Horizon (Hawking Radiation) (1997)
  • Hawking Effect (1999)
  • Radiation of Particles and Antiparticles by a Charged Black-Hole (1999)
  • Causality violation (2001)
  • Superradiance of the charged Black-Holes (2004)
  • Global Dirac-Klein-Gordon Fields on Black-Holes Manifolds (2005)
  • Global Dirac field on the Anti-De-Sitter Universe (2007)
  • Waves and Scattering in the Randall-Sundrum Model of Brane Cosmology (2009)
  • The Klein-Gordon equation in the Anti-de Sitter cosmology (2011)
  • New boundary conditions at the time-like infinity of the Anti-de Sitter universe (2012)
    
  • Linear stability of the De Sitter Brane (2014)
  • Witten Bubble of Nothing, Hawking Lorentzian Wormhole (2016)
  • Waves on accelerating dodecahedral universes (2017)
  • Wave asymptotics at a cosmological time-singularity (2018)
    
   
  
• Computational Electromagnetism

• Time Dependent Integral Method for Maxwell System 3D+1 (with A. Pujols, 1991)
• Coupling Boundary Elements / Finite Elements Methods in 3D+1 (with V. Lubet, 1994)
• Integral Method for Absorbing Obstacle in 3D+1(with V. Lange 1995)
• Parallel Algorithm (with  P. Charrier, 1997)
• Scattering by Inhomogeneous Obstacles (with L. Bounhoure, 1998)
• Fast multipole method / Microlocal Discretization / High Order Finite Elements (with E. Darrigrand, K. Mer, 2000-2007)
• Fast multipole method for the radiosity (avec J. Morice, K. Mer, 2007)