1. F. Nakai and K. Yoshii, “Reducing Segregation in Vibrated Binary-Sized Granular Mixtures by Excessive Small Particle Introduction,” submitted to Granul. Matter.
  2. F. Nakai and T. Ishida, “Analysis of non-Gaussian diffusion of Hydrogen and Oxygen in Cement Paste Using a Two-State Fluctuating Diffusivity Model,” Nihon Reoroji Gakkaishi (J Soc Rheol Jpn), to be published.
  3. F. Nakai and T. Uneyama, “Brownian yet non-Gaussian diffusion of a light particle in heavy gas: Lorentz gas based analysis”, Phys. Rev. E 108, 044129 (2023). [APS] [arXiv]
  4. F. Nakai and T. Ishida, “Gas Diffusion in Cement Pastes: An Analysis using a Fluctuating Diffusivity Model”, Constr. Build. Mater. 407, 133411 (2023). [ELSEVIER] [arXiv]
  5. F. Nakai, M. Kröger, T. Ishida, T. Uneyama, Y. Doi, and Y. Msubuchi, “Increase in rod diffusivity emerges even in Markovian nature”, Phys. Rev. E 107, 044604 (2023). [APS] [arXiv]
  6. F. Nakai, Y. Masubuchi, Y. Doi, T. Ishida, and T. Uneyama, “Fluctuating diffusivity emerges even in binary gas mixtures”, Phys. Rev. E 107, 014605 (2023). [APS] [arXiv]
  7. F. Nakai, Y. Masubuchi and T. Uneyama, “Short time dynamics of a tracer in an ideal gas”, Phys. Rev. E. 102, 032104 (2020). [APS] [arXiv]
  8. T. Uneyama, F. Nakai and Y. Masubuchi, “Effect of Inertia on Linear Viscoelasticity of Harmonic Dumbbell Model”, Nihon Reoroji Gakkaishi 47, 143 (2019). [J-STAGE] [arXiv]

Master thesis

Title: "Short-time dynamics of a tracer particle in an ideal gas" pdf
English / 日本語