Moon-Jin Kang

Moon-Jin Kang

Korea Advanced Institute of Science and Technology

Assistant Professor

Department of Mathematical Sciences

Research Area

  • #Mathematical analysis
  • #Mathematics
  • #Physics
  • #Uniqueness
  • #Flocking (texture)
  • #Kinetic energy
  • #Kullback-Leibler divergence
  • #Compressibility
  • #Viscosity
  • #Shock (fluid dynamics)

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Related papers to
‘ Mathematical analysis ‘ : 11

  • Contractivity of Transport Distances for the Kinetic Kuramoto Equation

    2014/05

    1.2 Impact Factor

    50 citations

    José A. Carrillo, Young-Pil Choi, Seung-Yeal Ha, Moon-Jin Kang, Yongduck Kim

    DOI : 10.1007/S10955-014-1005-Z

    • #Mathematics
    • #Mathematical analysis
    • #Coupling
    • #Oscillation
    • #Probability density function
    • #Vector field
    • #Natural frequency
    • #Kuramoto model
    • #Contraction principle
    • #Dirac measure

All papers authored by
‘ Moon-Jin Kang ’ : 16

  • Contractivity of Transport Distances for the Kinetic Kuramoto Equation

    2014/05
    JOURNAL OF STATISTICAL PHYSICS

    1.2 Impact Factor

    50 citations

    José A. Carrillo, Young-Pil Choi, Seung-Yeal Ha, Moon-Jin Kang, Yongduck Kim

    DOI : 10.1007/S10955-014-1005-Z

    • #Mathematics
    • #Mathematical analysis
    • #Coupling
    • #Oscillation
    • #Probability density function
    • #Vector field
    • #Natural frequency
    • #Kuramoto model
    • #Contraction principle
    • #Dirac measure

Related papers to
‘ Mathematical analysis ‘ : 11

  • Contractivity of Transport Distances for the Kinetic Kuramoto Equation

    2014/05
    JOURNAL OF STATISTICAL PHYSICS

    1.2 Impact Factor

    50 citations

    José A. Carrillo, Young-Pil Choi, Seung-Yeal Ha, Moon-Jin Kang, Yongduck Kim

    DOI : 10.1007/S10955-014-1005-Z

    • #Mathematics
    • #Mathematical analysis
    • #Coupling
    • #Oscillation
    • #Probability density function
    • #Vector field
    • #Natural frequency
    • #Kuramoto model
    • #Contraction principle
    • #Dirac measure
  • A rigorous derivation from the kinetic Cucker–Smale model to the pressureless Euler system with nonlocal alignment

    2019/01
    ANALYSIS & PDE

    1.7 Impact Factor

    45 citations

    Alessio Figalli, Moon-Jin Kang

    DOI : 10.2140/APDE.2019.12.843

    • #Mathematics
    • #Mathematical analysis
    • #Convexity
    • #Mesoscopic physics
    • #Kullback-Leibler divergence
    • #Limit (mathematics)
    • #Variable (mathematics)
    • #Flocking (behavior)
    • #Euler system
    • #Entropy (classical thermodynamics)

Get access to
Contact information

Log in

All papers authored by
‘ Moon-Jin Kang ’ : 16

  • Contractivity of Transport Distances for the Kinetic Kuramoto Equation

    2014/05
    JOURNAL OF STATISTICAL PHYSICS

    1.2 Impact Factor

    50 citations

    José A. Carrillo, Young-Pil Choi, Seung-Yeal Ha, Moon-Jin Kang, Yongduck Kim

    DOI : 10.1007/S10955-014-1005-Z

    • #Mathematics
    • #Mathematical analysis
    • #Coupling
    • #Oscillation
    • #Probability density function
    • #Vector field
    • #Natural frequency
    • #Kuramoto model
    • #Contraction principle
    • #Dirac measure
  • A rigorous derivation from the kinetic Cucker–Smale model to the pressureless Euler system with nonlocal alignment

    2019/01
    ANALYSIS & PDE

    1.7 Impact Factor

    45 citations

    Alessio Figalli, Moon-Jin Kang

    DOI : 10.2140/APDE.2019.12.843

    • #Mathematics
    • #Mathematical analysis
    • #Convexity
    • #Mesoscopic physics
    • #Kullback-Leibler divergence
    • #Limit (mathematics)
    • #Variable (mathematics)
    • #Flocking (behavior)
    • #Euler system
    • #Entropy (classical thermodynamics)

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