We present two numerical schemes for passive tracer particles in the hydrodynamical moving-mesh code AREPO, and compare their performance for various problems, from simple setups to cosmological simulations. The purpose of tracer particles is to allow the flow to be followed in a Lagrangian way, tracing the evolution of the fluid with time, and allowing the thermodynamical history of individual fluid parcels to be recorded. We find that the commonly-used ‘velocity field tracers’, which are advected using the fluid velocity field, do not in general follow the mass flow correctly, and explain why this is the case. This method can result in orders-of-magnitude biases in simulations of driven turbulence and in cosmological simulations, renderin...
Several Lagrangian methodologies have been proposed in recent years to simulate advection-dispersion...
We introduce novel methods for enriched Lagrangian fluid simulation in three distinct areas: smoke a...
The mechanics of how particles diffuse, interact, eject, etc. within a fluid is applicable to numero...
International audienceWe present a new implementation of the tracer particles algorithm based on a M...
We investigate the nature of gas accretion onto haloes and galaxies at z = 2 us-ing cosmological hyd...
We present a detailed comparison between the well-known smoothed particle hydrodynamics (SPH) code g...
Context. Radiation magnetohydrodynamics (radiation-MHD) simulations have become a standard tool for ...
Tracer particles introduced into the flow domain for experimental flow visualization often tend to e...
A Lagrangian tracking method is introduced, which uses a prediction of the particle distribution for...
The random advection of passive additives in a turbulent fluid plays an important role in solar phys...
To model tracer spreading in the Ocean, Lagrangian simulations in an offline framework are a practic...
The computer automated radioactive particle tracking (CARPT) and positron emission particle tracking...
This thesis describes the development, benchmarking and application of a non-LTE, co-moving frame Mo...
We examine the distribution of neutral hydrogen in cosmological simulations carried out with the new...
For simulations of fluid dynamics in astrophysics, physical viscosity and diffusion are typically ne...
Several Lagrangian methodologies have been proposed in recent years to simulate advection-dispersion...
We introduce novel methods for enriched Lagrangian fluid simulation in three distinct areas: smoke a...
The mechanics of how particles diffuse, interact, eject, etc. within a fluid is applicable to numero...
International audienceWe present a new implementation of the tracer particles algorithm based on a M...
We investigate the nature of gas accretion onto haloes and galaxies at z = 2 us-ing cosmological hyd...
We present a detailed comparison between the well-known smoothed particle hydrodynamics (SPH) code g...
Context. Radiation magnetohydrodynamics (radiation-MHD) simulations have become a standard tool for ...
Tracer particles introduced into the flow domain for experimental flow visualization often tend to e...
A Lagrangian tracking method is introduced, which uses a prediction of the particle distribution for...
The random advection of passive additives in a turbulent fluid plays an important role in solar phys...
To model tracer spreading in the Ocean, Lagrangian simulations in an offline framework are a practic...
The computer automated radioactive particle tracking (CARPT) and positron emission particle tracking...
This thesis describes the development, benchmarking and application of a non-LTE, co-moving frame Mo...
We examine the distribution of neutral hydrogen in cosmological simulations carried out with the new...
For simulations of fluid dynamics in astrophysics, physical viscosity and diffusion are typically ne...
Several Lagrangian methodologies have been proposed in recent years to simulate advection-dispersion...
We introduce novel methods for enriched Lagrangian fluid simulation in three distinct areas: smoke a...
The mechanics of how particles diffuse, interact, eject, etc. within a fluid is applicable to numero...