Kazuo AOKI  («C¤ì¤@¥Í)
RankHonorary Chair Professor

Emailkazuo.aoki.22v@st.kyoto-u.ac.jp

Homepagehttp://www.math.ncku.edu.tw/~kazuo-aoki

FieldKinetic Theory of Gases; Fluid Dynamics

EducationDr. Eng., Kyoto University (1979)
M. Eng., Kyoto University (1975)
B. Eng., Kyoto University (1973)

Experience2016-  Professor Emeritus, Kyoto University
1994-2016 Professor, Kyoto University
1985-1994 Associate Professor, Kyoto University
1978-1985 Research Associate, Kyoto University

Selected Publications
  1. K. Aoki, V. Giovangigli, and S. Kosuge, Boundary conditions for the Boltzmann equation from gas-surface interaction kinetic models, Phys. Rev. E 106(3), 035306: 1-25 (2022).
  2. S. Kosuge, K. Aoki, M. Bisi, M. Groppi, and G. Martalo, Boundary conditions for two-temperature Navier-Stokes equations for a polyatomic gas, Phys. Rev. Fluids 6(8), 083401: 1-52 (2021).
  3. K. Aoki and V. Giovangigli, Kinetic theory of chemical reactions on crystal surfaces, Physica A 565, 125573: 1-43 (2021).
  4. K. Aoki, M. Bisi, M. Groppi, and S. Kosuge, Two-temperature Navier-Stokes equations for a polyatomic gas derived from kinetic theory, Phys. Rev. E 102(2), 023104: 1-23 (2020).
  5. K. Aoki, Y.-C. Lin, and K.-C. Wu, Milne problem for the linear and linearized Boltzmann equations relevant to a binary gas mixture, J. Differ. Equ. 269(1), 257-287 (2020).
  6. S. Kosuge, H.-W. Kuo, and K. Aoki, A kinetic model for a polyatomic gas with temperature-dependent specific heats and its application to shock-wave structure, J. Stat. Phys. 177(2), 209-251 (2019).
  7. K. Aoki and V. Giovangigli, Kinetic model of adsorption on crystal surfaces, Phys. Rev. E 99(5), 052137: 1-25 (2019).
  8. M. Hattori, S. Kosuge, and K. Aoki, Slip boundary conditions for the compressible Navier-Stokes equations for a polyatomic gas, Phys. Rev. Fluids 3(6), 063401: 1-46 (2018).
  9. S. Kosuge and K. Aoki, Shock-wave structure for a polyatomic gas with large bulk viscosity, Phys. Rev. Fluids 3(2) 023401: 1-42 (2018).