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Experiences

Current Experience

  • Postdoctoral Researcher

    Warsaw, Poland
    Since September 2015

    my current Research focuses on many-particle quantum walks. i study quantum many-particle systems on lattice where i simulate quantum optics to study multimode correlations and simulates quantum matters. i use this framework to simulate many-body hamiltonians, investigating how quantum thermalization occurs in these systems and explore quantum dynamics. i also explore the possibility of using many-particle quantum walks for developing new techniques in quantum Algorithms. and study possibility of designing protocols for quantum matter on optical lattices with both bosons and fermions. my frameworks aim to control a few body system of up to few hundreds of atoms on lattices. i am also interested in quantum optics and quantum field theory and its application to condensed matter Physics where understanding phase’s formation is triggered in system starting with non-interaction and correlation to interaction and long-range correlations. this also explains my interest for quantum chaos and complex dynamics. i'm interested in exploring physical problem by starting from purely mathematical concepts. this explains also my interest for algebraic quantum field theory, group theory and functional Analysis. with the combination of these field, i’m studying a possible implementation of an appropriate framework for a proper non-hermitian quantum theory. where my main interest is to explore cases where for a non-hermitian operators with specific symmetries can have real eigenvalues under some specific choices of new inner products on hilbert spaces with respect to which the non-hermitian operators are quasi-hermitians.

    while my formal Training may sounds theoretical, i deal with Problem Solving using both fundamental concepts and computer Simulations. i want to emphasize that i do all my Computer programming work myself and recently i’ve added more packages to my Software developer toolbox by learning to develop with JavaScript, .net, jquery, ajax/json and web api, PHP, MySQL. in addition to my Training in Physics and Mathematics, i have developed strong interests in quantitative and risk Analysis where i’ve been studying the Applications of stochastic models, time series, matrix and tensor algebra in quantitative Analysis. my main motivation in this domain is the use of real numerical systems to explore the level of controllability and predictability using some computational tools such as r, MATLAB and c++. in particular, even though we know that randomness drives quantitative domains, can we develop some useful tools to extend the stability of these systems at very short terms. i’m currently working on some projects toward Publications in this domain.

    My current research focuses on many-particle quantum walks. I study quantum many-particle systems on lattice where I simulate quantum optics to study multimode correlations and simulates quantum matters. I use this framework to simulate many-body Hamiltonians, investigating how quantum thermalization occurs in these systems and explore quantum dynamics. I also explore the possibility of using many-particle quantum walks for developing new techniques in quantum algorithms. And study possibility of designing protocols for quantum matter on optical lattices with both bosons and fermions. My frameworks aim to control a few body system of up to few hundreds of atoms on lattices. I am also interested in Quantum optics and Quantum field theory and its application to Condensed matter Physics where understanding phase’s formation is triggered in system starting with non-interaction and correlation to interaction and long-range correlations. This also explains my interest for quantum chaos and complex dynamics. I'm interested in exploring physical problem by starting from purely mathematical concepts. This explains also my interest for Algebraic Quantum Field Theory, Group theory and Functional Analysis. With the combination of these field, I’m studying a possible implementation of an appropriate framework for a proper non-Hermitian quantum theory. Where my main interest is to explore cases where for a non-Hermitian operators with specific symmetries can have real eigenvalues under some specific choices of new inner products on Hilbert spaces with respect to which the non-Hermitian operators are Quasi-Hermitians.

    While my formal training may sounds theoretical, I deal with problem solving using both fundamental concepts and computer simulations. I want to emphasize that I do all my computer programming work myself and recently I’ve added more packages to my software developer toolbox by learning to develop with JavaScript, .Net, jQuery, AJAX/JSON and web API, PHP, MySQL. In addition to my training in Physics and Mathematics, I have developed strong interests in Quantitative and Risk Analysis where I’ve been studying the applications of stochastic models, time series, matrix and tensor algebra in quantitative analysis. My main motivation in this domain is the use of real numerical systems to explore the level of controllability and predictability using some computational tools such as R, Matlab and C++. In particular, even though we know that randomness drives quantitative domains, can we develop some useful tools to extend the stability of these systems at very short terms. I’m currently working on some projects toward publications in this domain.

Past Experience

Personality

Self Assessment :
AdaptabilityAnalytical thinkingApproachabilityAuthenticityCollaborationCommunicativeCompetitivenessCreative thinkingCritical thinkingEfficiencyFlexibilityInnovative thinkingResiliencySelf-confidenceResult OrientedStrategic thinking

Knowledge

Self Assessment :
Scientific writingAnalysisAnalytical methodsC++CADChemistryComputational BiologyData AnalysisEnglishLinuxLaTeXJavaMATLAB (matrix laboratory)MatlabMicrosoft ExcelMicrosoft PowerpointMicrosoft WordMultilingualMaterials SciencePerlPhysicsPythonRResearchscienceScientific CommunicationsScientific WritingSoftware DocumentationStatisticsStatistical Data Analysis
LinkedIn Assessment :
Numerical AnalysisscienceMathematicsResearchMatlabStatisticsTeachingMathematical ModelingModelingProgrammingBioinformaticsC++Computer ScienceAnalysisCLinuxPhysicsLaTeXHigher EducationTutoringPythonLecturingPublic SpeakingSimulationsOpticsUniversity Teaching

Skills and Expertise

Self Assessment :
Analytical skills Analyze data Control data Develop protocolsExecute scientific projectsInterpret dataInterpret scientific dataInterpret research resultsManage data collection systemManage data reporting systemsMonitor dataNetworkOral presentationOversee data collectionPrepare final reportPresent data at congress

Education

  • Doctor of Philosophy (PhD) in Quantum Optics from University of Zielona Gora in 2016
  • Msc in Theoretical Physics from Stellenbosch University/Universiteit Stellenbosch in 2006
  • AIMS Postgraduate Diploma in Mathematical sciences from University of Cape Town in 2004
  • Postgraduate in Mathematical sciences from AIMS-Muizenberg in 2004
  • Bsc-Honors in Physics from University of Kinshasa in 1998

Languages

BrightOwl Assessment:
Self Assessment:
English
Full Proficiency
French
Full Proficiency
Polish
Elementary Proficiency

Work Preferences

  • Positions I am interested in:
    Data Scientist Postdoctoral Research Fellow Physics Lecturer
  • Work From Home:
    No
  • Work Regime:
    Permanent position
  • International:
    Yes

Area / Region

Warsaw, Poland

Others

Driving License
  • Yes

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