• Vador

  • Referenced in 100 articles [sw06987]
  • effects of self-consistent electro magnetic fields. The unknown f(t,x,v), depending ... time t, the position x, and the velocity v, represents the distribution function of particles...
  • ANTARES

  • Referenced in 5 articles [sw09185]
  • They essentially contribute to the turbulent velocity field near the granule boundaries...
  • ODDLS

  • Referenced in 4 articles [sw18207]
  • divergence-free condition in the velocity field by means of the solution to a scalar...
  • NadiaSpectral

  • Referenced in 1 article [sw12160]
  • terms of projections of the velocity and vorticity fields on an arbitrary direction in space ... showed that any divergence-free velocity field can be written as an L2 orthogonal ... solenoidal velocity fields depending on the normal velocity and vorticity components respectively. For wall bounded...
  • SLiM

  • Referenced in 2 articles [sw01355]
  • speed as well as magnetic and velocity fields. We give details of several...
  • MANS

  • Referenced in 1 article [sw07567]
  • mathematical model for finding a flow field and cavitation problem on dam spillways. The Navier ... computation of pressure and velocity field, free water surface profiles and other parameters. Also ... discussed after determination of velocity and pressure fields, which cause erosion on the spillway shut...
  • TRISTAN

  • Referenced in 6 articles [sw09664]
  • grid, and this field is then used to advance the velocity of the particles ... velocities and positions are then used as source terms to re-calculate the electromagnetic fields...
  • ASAP

  • Referenced in 6 articles [sw02689]
  • tags move at constant velocity in the reader’s field. We also consider the case...
  • PIC-MCC

  • Referenced in 7 articles [sw03085]
  • decrease the space charge fields and increase the streamer propagation velocity. Finally, effects of electrons...
  • A-SLEIPNNIR

  • Referenced in 1 article [sw29438]
  • equation with analytically supplied, divergence-free velocity fields. The results show that our approach yields...
  • CASPAR

  • Referenced in 1 article [sw22260]
  • with the calculated pressure and velocity field the internal and external leakage flow, occurring only...
  • PyFly

  • Referenced in 1 article [sw25306]
  • Biot-Savart law to construct the velocity field at every point in the simulated domain...
  • Graale

  • Referenced in 2 articles [sw06933]
  • structures. Explicit analytical expressions for magnetic field, plasma velocity, density, and pressure within...
  • ELMFIRE

  • Referenced in 4 articles [sw10441]
  • polarization drift and electron parallel velocity response to electric field and its validation are described...
  • MercuryDPM

  • Referenced in 3 articles [sw26835]
  • constructs accurate three-dimensional continuum fields such as density, velocity, structure and stress tensors, providing...
  • OpenPTV

  • Referenced in 1 article [sw27305]
  • three-dimensional method, measuring velocity and velocity gradients along particle trajectories, i.e. in Lagrangian framework ... possible to obtain full field of velocity, velocity derivatives along with the Lagrangian acceleration...
  • ECHO

  • Referenced in 17 articles [sw22269]
  • divergence-free condition of the magnetic field in shock-capturing methods. The limiting case ... implemented by simply replacing the fluid velocity with the electromagnetic drift velocity and by neglecting...
  • SPHEREPACK

  • Referenced in 24 articles [sw04874]
  • package can be used to compute velocity components, then the Laplacian inverse can be used ... transforms, and for converting scalar and vector fields between geophysical and mathematical spherical coordinates.Example programs...
  • FlowVC

  • Referenced in 1 article [sw13644]
  • velocity data and computing FTLE fields, computing tracer/particle trajectories, and interpolating the velocity data onto...
  • OpenFVM

  • Referenced in 1 article [sw21325]
  • well as solving the velocity and pressure fields, the code is capable of solving...