Some years ago, Harth et al. experimentally explored the steady state dynamics of a heated granular gas of rod-like particles in microgravity [K. Harth et al. Phys. Rev. Lett. 110, 144102 (2013)]. Here, we report numerical results that quantitatively reproduce their experimental findings and provide additional insight into the process. A system of sphero-cylinders is heated by the vibration of three flat side walls, resulting in one symmetrically heated direction, one non-symmetrically heated direction, and one non-heated direction
In this thesis we report experimental and simulation study of granular gases. As a non-equilibrium s...
Magnetic forces are used to heat up thousands of spherical particles under low-gravity. This long ra...
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
Some years ago, Harth et al. experimentally explored the steady state dynamics of a heated granular ...
Granular gases are a most peculiar state, superficially similar to molecular gases: They are loose e...
Granular gases are interesting multiparticle systems which, irrespective of the apparent simplicity ...
We are reporting an experimental study performed on a granular gas enclosed into a 2D cell submitted...
We study fluidized granular gases in a stationary state determined by the balance between external d...
A three-dimensional granular gas of ellipsoids is established by exposing the system to the microgr...
Dynamics of quasi-2d dissipative granular gas is studied in microgravity condition (of the order of ...
We present an experimental study performed on a vibrated granular gas enclosed into a 2D rectangular...
The main topic of this paper (part 4) is the interpretation of data from extended simulations publis...
In this work, we report some theoretical results on granular gases consisting of frictionless 3D rod...
In this thesis we report experimental and simulation study of granular gases. As a non-equilibrium s...
Magnetic forces are used to heat up thousands of spherical particles under low-gravity. This long ra...
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
Some years ago, Harth et al. experimentally explored the steady state dynamics of a heated granular ...
Granular gases are a most peculiar state, superficially similar to molecular gases: They are loose e...
Granular gases are interesting multiparticle systems which, irrespective of the apparent simplicity ...
We are reporting an experimental study performed on a granular gas enclosed into a 2D cell submitted...
We study fluidized granular gases in a stationary state determined by the balance between external d...
A three-dimensional granular gas of ellipsoids is established by exposing the system to the microgr...
Dynamics of quasi-2d dissipative granular gas is studied in microgravity condition (of the order of ...
We present an experimental study performed on a vibrated granular gas enclosed into a 2D rectangular...
The main topic of this paper (part 4) is the interpretation of data from extended simulations publis...
In this work, we report some theoretical results on granular gases consisting of frictionless 3D rod...
In this thesis we report experimental and simulation study of granular gases. As a non-equilibrium s...
Magnetic forces are used to heat up thousands of spherical particles under low-gravity. This long ra...
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
Add to ORKG