diff --git a/doc/Sphinx/Overview/highlights.rst b/doc/Sphinx/Overview/highlights.rst index 1e755f6e2..c49c46004 100755 --- a/doc/Sphinx/Overview/highlights.rst +++ b/doc/Sphinx/Overview/highlights.rst @@ -88,7 +88,7 @@ Following is a comparison of the accelerated electron spectra at the end of thes In the green line it is shown the result of the previously known averaged ionization model. Without the longitudinal momentum initialization, few electrons obtained through ionization are trapped and accelerated in the plasma wave. The red line shows the result with the new averaged ionization model implemented in :program:`Smilei`, which accurately reproduces -the spectrum obtained with the simulation without an envelope model (blue line). +the spectrum obtained with the *standard laser* simulation without an envelope model. The envelope simulation required an amount of computing resources orders of magnitude smaller than those required by the simulation without a @@ -145,7 +145,7 @@ an amount of resources greater by at least an order of magnitude. The laser (in red) propagates through a low density plasma and drives a nonlinear Langmuir wave (in blue) that propagates at a velocity close to that of light in its wake. In this simulation, a moving window is used -so we can follow the laser as it propagates through the plasma. We see electrons (in white) being self-injected +so we can follow the laser as it propagates through the plasma. We see electrons being self-injected in this wakefield where they see a strong electric field that accelerates them up to ultra-relativistic (GeV) energy level. An animation generated from the simulation data can be found `here `_ @@ -230,7 +230,7 @@ shows how this balancing reduces the time of the simulation. :align: center The red curve is the best situation obtained in the previous section, while -the black curve corresponds to the DLB algorithm enabled. +the curves with dynamic load balancing are indicated as *DLB*. The portion of the box belonging to each MPI process varies when the load balancing occurs. The following figure shows how each of these portions evolve with time. @@ -239,7 +239,7 @@ occurs. The following figure shows how each of these portions evolve with time. The four panels correspond to four timesteps during the simulation. The colorscale represents the log-scaled load of each patch. -The black lines show the borders of each MPI process' portion of the box. +The lines show the borders of each MPI process' portion of the box. The MPI processes that are close to the hotspot tend to handle a smaller portion of the box. @@ -266,7 +266,7 @@ with a total of :math:`\sim 1.4` billion quasi-particles in the box. The following figure (top panel) shows half of the simulation box in the y-direction, and the laser field is reported at three different times. The reflected laser pulse (at time :math:`t_2`) shows a different spectral content than -the incident pulse (at time :math:`t_0`). The plasma electron density is shown in black. +the incident pulse (at time :math:`t_0`). A close-up view of the interaction region is given in the bottom panel, illustrating the electron bunches being pulled out from the plasma surface. @@ -317,8 +317,8 @@ A 2-dimensional simulation, in conditions close to actual experiments, ran on a box size of 1024 µm x 512 µm for 10 ps with 25 billion quasi-particles. The following figure shows the evolution of the pump and seed intensities in the head-on collision at three different times. -The blue-yellow maps correspond to the plasma density while the white-red maps -correspond to the lasers intensity. +Surfaces corresponding to the laser intensity are overlaid on top of surfaces +corresponding to the plasma density. .. image:: /_static/pump_seed.jpg :align: center diff --git a/doc/Sphinx/Overview/releases.rst b/doc/Sphinx/Overview/releases.rst index 665ee36ee..1b0bd9ba7 100755 --- a/doc/Sphinx/Overview/releases.rst +++ b/doc/Sphinx/Overview/releases.rst @@ -32,6 +32,10 @@ Changes made in the repository (not released) * Changed coordinate reference for 2D probe in 3D or AM geometry (zero is the box origin projected orthogonally on the probe plane). +* Documentation: + + * Dark theme (click the switch on the bottom left, or set browser preferences). + * Bug fixes: * ``dump_minutes`` often failed to write some checkpoint files. diff --git a/doc/Sphinx/_static/LWFA_Plas@Par.jpg b/doc/Sphinx/_static/LWFA_Plas@Par.jpg index 002204fcd..3360fbdf1 100644 Binary files a/doc/Sphinx/_static/LWFA_Plas@Par.jpg and b/doc/Sphinx/_static/LWFA_Plas@Par.jpg differ diff --git a/doc/Sphinx/_static/PWFA.jpg b/doc/Sphinx/_static/PWFA.jpg index 88f0c5130..58de8a641 100644 Binary files a/doc/Sphinx/_static/PWFA.jpg and b/doc/Sphinx/_static/PWFA.jpg differ diff --git a/doc/Sphinx/_static/smileiLogo.svg b/doc/Sphinx/_static/smileiLogo.svg index 1b70b4a5c..2da3028e4 100755 --- a/doc/Sphinx/_static/smileiLogo.svg +++ b/doc/Sphinx/_static/smileiLogo.svg @@ -1,14 +1,7 @@ - + viewBox="50 380 700 240"> {{ toc }} -