PhD Position F/M Theoretical and numerical study of dark solitons in nonlinear Schrödinger equations (M/F)
Type de contrat : Fixed-term contract
Niveau de diplôme exigé : Graduate degree or equivalent
Fonction : PhD Position
Niveau d'expérience souhaité : Recently graduated
A propos du centre ou de la direction fonctionnelle
The Inria University of Lille centre, created in 2008, employs 360 people including 305 scientists in 15 research teams. Recognised for its strong involvement in the socio-economic development of the Hauts-De-France region, the Inria University of Lille centre pursues a close relationship with large companies and SMEs. By promoting synergies between researchers and industrialists, Inria participates in the transfer of skills and expertise in digital technologies and provides access to the best European and international research for the benefit of innovation and companies, particularly in the region.
For more than 10 years, the Inria University of Lille centre has been located at the heart of Lille's university and scientific ecosystem, as well as at the heart of Frenchtech, with a technology showroom based on Avenue de Bretagne in Lille, on the EuraTechnologies site of economic excellence dedicated to information and communication technologies (ICT).
Contexte et atouts du poste
The nonlinear Schrödinger (NLS) equation is ubiquitous in Physics, and appears for example in cold atoms (Bose-Einstein condensates) and nonlinear optics. It is well known that classical versions of this equation have particular solutions, named "solitons", that travel at finite speed, without changing shape over time. These solitons play a central role in the global dynamics of this equation.
In this PhD thesis, we aim at considering more complex versions of the NLS equation, in order to take into account additional physical effects. In particular, we wish to include nonzero boundary conditions at infinity as well as general nonlinearities, such as nonlocal or quasilinear terms. In this context, solitons are named "dark solitons", while the name "bright solitons" is used for the classical solitons (with vanishing boundary conditions at infinity). The main objectives of this PhD proposal are :
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Numerical computations of dark solitons, in dimension 2, when the boundary conditions are periodic in one direction and nonzero in the order direction. In the context of [5], we wish to introduce a discretized version of the variational formulation to be able to quantify numerically the transition between "almost 1d" solitons, when the size of the torus is "small", and "actual 2d" solitons, when the size of the torus is "large".
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Numerical simulation of the dynamics of solitons, in dimension 2, with nonzero boundary conditions, so as to be able to simulate the dynamics of dark solitons. Some previous work [2,3], in dimensions 1 and 2, exist, that we wish to extend to the theoretical context of [5]. Then, the goal will be to derive, analyze and implement numerical methods in dimension 2 allowing to simulate interactions between solitons (either between dark solitons or between dark and bright solitons), in order to pave the way for a future theoretical analysis.
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Introduction of more complex nonlinear terms, in the NLS equation. In particular, we want to be able to consider numerically nonlocal nonlinear terms, as well as quasilinear terms. Examples of nonlocal nonlinear terms can be found in [4] (1 dimensional case), and examples of quasilinear terms can be found in [6] (1 dimensional case as well). With theses additional terms, once their numerical discretization is analyzed, we wish to both compute numercal solitons (axis 1 above) and simulate the dynamics of the equation (axis 2 above) when the boundary conditions at infinity are nonzero, in dimension 2.
Travel expenses are covered within the limits of the scale in force.
Mission confiée
Assignments :
With the help of G. Dujardin and A. De Laire, the recruited person will be taken to get familiar with the scientific literature on the discretization of NLS equations, to develop, analyze and implement (Python, C, etc) numerical methods, to write scientific articles, to present their work in scientific conferences.
For a better knowledge of the proposed research subject :
A minimal biograhy consists in :
[1] M. J. Ablowitz. Nonlinear Dispersive Waves: Asymptotic Analysis and Solitons. Cambridge Texts in Applied Mathematics. Cambridge University Press, 2011.
[2] W. Bao. Numerical methods for the nonlinear Schrödinger equation with nonzero farfield conditions. Methods and Applications of Analysis, 11(3):367–388, 2004.
[3] W. Bao, Q. Tang, and Z. Xu. Numerical methods and comparison for computing dark and bright solitons in the nonlinear schrödinger equation. Journal of Computational Physics, 235:423–445, 2013.
[4] A. de Laire, G. Dujardin, and S. López-Martínez. Numerical computation of dark solitons of a nonlocal nonlinear Schrödinger equation. To appear in Journal of Nonlinear Science, 2023.
[5] A. de Laire, Philippe Gravejat, and D. Smets. Minimizing travelling waves for the Gross-Pitaevskii equation on R × T. To appear in Annales de la Faculté des Sciences de Toulouse.
[6] A. de Laire and E. Le Quiniou. Exotic traveling waves for a quasilinear Schrödinger equation with nonzero background. Preprint arXiv:2311.08918
Collaboration :
The recruited person will be in connection with G. Dujardin and A. De Laire who will supervize the PhD thesis.
Responsibilities :
The person recruited is responsible for achieving this scientific project.
Compétences
Technical skills and level required : M2
Languages : French, English, or Spanish
Relational skills : listening, adaptation, reactivity, autonomy
Other valued appreciated : scientific curiosity, scienfitic ethics
Avantages
- Subsidized meals
- Partial reimbursement of public transport costs
- Leave: 7 weeks of annual leave + 10 extra days off due to RTT (statutory reduction in working hours) + possibility of exceptional leave (sick children, moving home, etc.)
- Possibility of teleworking and flexible organization of working hours
- Professional equipment available (videoconferencing, loan of computer equipment, etc.)
- Social, cultural and sports events and activities
- Access to vocational training
- Social security coverage
Rémunération
2100€ gross per month for the 1st and 2nd years
2190€ gross per month for the 3rd year
Informations générales
- Thème/Domaine :
Numerical schemes and simulations
Scientific computing (BAP E) - Ville : Villeneuve d'Ascq
- Centre Inria : Centre Inria de l'Université de Lille
- Date de prise de fonction souhaitée : 2024-10-01
- Durée de contrat : 3 years
- Date limite pour postuler : 2024-04-30
Attention: Les candidatures doivent être déposées en ligne sur le site Inria. Le traitement des candidatures adressées par d'autres canaux n'est pas garanti.
Consignes pour postuler
CV + cover letter
Sécurité défense :
Ce poste est susceptible d’être affecté dans une zone à régime restrictif (ZRR), telle que définie dans le décret n°2011-1425 relatif à la protection du potentiel scientifique et technique de la nation (PPST). L’autorisation d’accès à une zone est délivrée par le chef d’établissement, après avis ministériel favorable, tel que défini dans l’arrêté du 03 juillet 2012, relatif à la PPST. Un avis ministériel défavorable pour un poste affecté dans une ZRR aurait pour conséquence l’annulation du recrutement.
Politique de recrutement :
Dans le cadre de sa politique diversité, tous les postes Inria sont accessibles aux personnes en situation de handicap.
Contacts
- Équipe Inria : PARADYSE
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Directeur de thèse :
Dujardin Guillaume / Guillaume.Dujardin@inria.fr
L'essentiel pour réussir
There future PhD candidate will have a taste for applied mathematiecs, modelling, numerical analysis and/or scientific computing. This will be clear from his previous scientific formation.
A propos d'Inria
Inria est l’institut national de recherche dédié aux sciences et technologies du numérique. Il emploie 2600 personnes. Ses 215 équipes-projets agiles, en général communes avec des partenaires académiques, impliquent plus de 3900 scientifiques pour relever les défis du numérique, souvent à l’interface d’autres disciplines. L’institut fait appel à de nombreux talents dans plus d’une quarantaine de métiers différents. 900 personnels d’appui à la recherche et à l’innovation contribuent à faire émerger et grandir des projets scientifiques ou entrepreneuriaux qui impactent le monde. Inria travaille avec de nombreuses entreprises et a accompagné la création de plus de 200 start-up. L'institut s'efforce ainsi de répondre aux enjeux de la transformation numérique de la science, de la société et de l'économie.