J
Juha Merikoski
Researcher at University of Jyväskylä
Publications - 53
Citations - 1165
Juha Merikoski is an academic researcher from University of Jyväskylä. The author has contributed to research in topics: Diffusion (business) & Surface diffusion. The author has an hindex of 18, co-authored 53 publications receiving 1112 citations. Previous affiliations of Juha Merikoski include Helsinki Institute of Physics & University of Helsinki.
Papers
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Kinetic roughening in slow combustion of paper.
Markko Myllys,J. Maunuksela,Mikko J. Alava,Tapio Ala-Nissila,Tapio Ala-Nissila,Juha Merikoski,J. Timonen +6 more
TL;DR: Results of experiments on the dynamics and kinetic roughening of one-dimensional slow-combustion fronts in three grades of paper are reported, and the relation of the observed short-range behavior and the noise as determined from the local velocity fluctuations is discussed.
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Lattice-Boltzmann Simulation of Capillary Rise Dynamics
TL;DR: In this article, a two-phase lattice Boltzmann simulation of the hydrodynamic behavior inside a capillary tube is presented, where the diameter of the tube is large enough, typically at least 30 lattice units.
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Spreading dynamics of three-dimensional droplets by the lattice-Boltzmann method
TL;DR: In this paper, the influence of the initial distance and shape of the drop from the surface on scaling of droplet radius R as a function of time was investigated for smooth and rough solid surfaces using the 3D lattice Boltzmann method.
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Experimental determination of KPZ height-fluctuation distributions
TL;DR: In this paper, height-fluctuation distributions of nonequilibrium interfaces were analyzed using slow-combustion fronts propagating in sheets of paper, and the experimental distributions for transient and stationary regimes were well fitted by the theoretical distributions proposed by Prahofer and Spohn in reference.
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Ferromagnetism in small clusters.
TL;DR: The results explain qualitatively the recent observations of the reduction with decreasing cluster size of the average magnetic moment in small iron clusters.