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- Feimin Huang

Discipline name
D-index
D-index (Discipline H-index) only includes papers and citation values for an examined
discipline in contrast to General H-index which accounts for publications across all
disciplines.
Citations
Publications
World Ranking
National Ranking

Mathematics
D-index
31
Citations
2,880
94
World Ranking
2644
National Ranking
131

- Mathematical analysis
- Quantum mechanics
- Partial differential equation

Mathematical analysis, Euler equations, Compressibility, Compressible flow and Weak solution are his primary areas of study. In his work, Perturbation is strongly intertwined with Exponential stability, which is a subfield of Mathematical analysis. His Euler equations study combines topics in areas such as Conservative vector field and Classical mechanics.

His Compressible flow study integrates concerns from other disciplines, such as Compact space, Vorticity and Euler's formula. His research integrates issues of Singularity, Numerical analysis, Similarity solution and Existence theorem in his study of Weak solution. His Discontinuity study incorporates themes from Polytropic process and Thermal conduction.

- Well Posedness for Pressureless Flow (129 citations)
- Contact discontinuity with general perturbations for gas motions (127 citations)
- Stability of Contact Discontinuities for the 1-D Compressible Navier-Stokes Equations (109 citations)

Feimin Huang mainly investigates Mathematical analysis, Compressibility, Euler equations, Boltzmann equation and Classical mechanics. Feimin Huang regularly links together related areas like Perturbation in his Mathematical analysis studies. His Compressibility research includes elements of Shock wave, Exponential stability, Free boundary problem, Half-space and Isentropic process.

The various areas that Feimin Huang examines in his Euler equations study include Limit, Riemann problem, Compressible flow and Rarefaction. His Boltzmann equation research is multidisciplinary, incorporating elements of Lattice Boltzmann methods, Knudsen number, Classification of discontinuities and Kinetic theory of gases. He interconnects Charge density, Navier stokes, Current density, Dissipative system and Real line in the investigation of issues within Classical mechanics.

- Mathematical analysis (88.29%)
- Compressibility (40.54%)
- Euler equations (32.43%)

- Mathematical analysis (88.29%)
- Compressibility (40.54%)
- Boundary value problem (13.51%)

His primary areas of investigation include Mathematical analysis, Compressibility, Boundary value problem, Euler equations and Isentropic process. His study on Mathematical analysis is mostly dedicated to connecting different topics, such as Vortex. He has researched Compressibility in several fields, including Classification of discontinuities and Inviscid flow, Classical mechanics.

While the research belongs to areas of Boundary value problem, Feimin Huang spends his time largely on the problem of Boltzmann equation, intersecting his research to questions surrounding Boltzmann constant, Half-space, Specular reflection, Momentum and Kinetic theory of gases. The various areas that Feimin Huang examines in his Euler equations study include Entropy, Iterative method and Applied mathematics. His work deals with themes such as Amplitude, Shock wave and Nonlinear stability, which intersect with Isentropic process.

- Steady Euler flows with large vorticity and characteristic discontinuities in arbitrary infinitely long nozzles (23 citations)
- Effects of soft interaction and non-isothermal boundary upon long-time dynamics of rarefied gas (9 citations)
- Stability of supersonic contact discontinuity for two-dimensional steady compressible Euler flows in a finite nozzle (8 citations)

- Quantum mechanics
- Mathematical analysis
- Partial differential equation

Feimin Huang mostly deals with Mathematical analysis, Boundary value problem, Compressibility, Euler's formula and Bounded function. In his research, he performs multidisciplinary study on Mathematical analysis and Two-phase flow. His Bounded function research integrates issues from Spacetime, Riemann hypothesis, Invariant and Isentropic process.

Feimin Huang interconnects Compact space, Uniqueness, Vorticity and Euler equations in the investigation of issues within Entropy. His research in Supersonic speed intersects with topics in Hyperbolic partial differential equation, Weak solution, Free boundary problem and Perturbation. Boltzmann equation is closely attributed to Domain in his work.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Well Posedness for Pressureless Flow

Feimin Huang;Zhen Wang.

Communications in Mathematical Physics **(2001)**

204 Citations

Contact discontinuity with general perturbations for gas motions

Feimin Huang;Zhou Ping Xin;Tong Yang.

Advances in Mathematics **(2008)**

169 Citations

Convergence to the Barenblatt Solution for the Compressible Euler Equations with Damping and Vacuum

Feimin Huang;Pierangelo Marcati;Ronghua Pan.

Archive for Rational Mechanics and Analysis **(2005)**

144 Citations

Stability of Contact Discontinuities for the 1-D Compressible Navier-Stokes Equations

Feimin Huang;Akitaka Matsumura;Zhouping Xin.

Archive for Rational Mechanics and Analysis **(2006)**

138 Citations

Asymptotic Stability of Combination of Viscous Contact Wave with Rarefaction Waves for One-Dimensional Compressible Navier-Stokes System

Feimin Huang;Jing Li;Jing Li;Akitaka Matsumura.

Archive for Rational Mechanics and Analysis **(2010)**

134 Citations

Convergence rate for compressible Euler equations with damping and vacuum

Feimin Huang;Ronghua Pan.

Archive for Rational Mechanics and Analysis **(2003)**

127 Citations

CONVERGENCE OF VISCOSITY SOLUTIONS FOR ISOTHERMAL GAS DYNAMICS

Feimin Huang;Zhen Wang.

Siam Journal on Mathematical Analysis **(2002)**

87 Citations

Fluid dynamic limit to the Riemann Solutions of Euler equations: I. Superposition of rarefaction waves and contact discontinuity

Feimin Huang;Yi Wang;Tong Yang.

Kinetic and Related Models **(2010)**

84 Citations

L 1 Convergence to the Barenblatt Solution for Compressible Euler Equations with Damping

Feimin Huang;Ronghua Pan;Zhen Wang.

Archive for Rational Mechanics and Analysis **(2011)**

80 Citations

Stability of a Composite Wave of Two Viscous Shock Waves for the Full Compressible Navier-Stokes Equation

Feimin Huang;Akitaka Matsumura.

Communications in Mathematical Physics **(2009)**

79 Citations

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