"I know tutorials, and these are some great tutorials.
#Space phenomena how to
"During the training you will not only learn how to create beautiful space environments but also get to know a wide range of very useful and versatile techniques in Blender and Cycles, that will help you become a better artist, to boldly blend where no one has blended before!" Sebastien Koenig, VFX Supervisor on Open Movie, “Tears of Steel.“ “Great dudes! The Material is quality stuff!” Manu Järvinen, Animator, Illustrator and 3D Modeler
#Space phenomena movie
If you've ever enjoyed any movie with "Star." in the title, you're going to love this course! The lighting alone is worth the price of admission."
I was really blown away by the trailer, and the tutorials deliver on the promise. "Gleb and Aidy are amazing artists on their own, so seeing them come together for this course is outstanding for those of us who continue to learn from them.
Like all dramatic conclusions, we end up in a black hole. We'll explore one of these monsters, from the accretion disk to the energy jet.Īnd how about a Comet or with a slight tweak to your colors you have a meteor streaking through the sky. Learn how to create the brightest objects in the galaxy - quasars. We’ve got a procedural animated sun surface to heat things up! HOT! That's how.īursting with more space panoramas, we’ll take a look at some of our procedural texturing options.Īfter watching this chapter you'll know how to create convincing nebulae (while cheating a little bit).
#Space phenomena plus
How to create a super high resolution space background? Box mapping plus seamless textures. Let's paint some spherical space panoramas! We need the fancy backgrounds for our space stuff. Once you have asteroids, naturally you have to fly through them in an asteroid field. Just use the procedural modeling techniques.īefore creating the vast fields of asteroids, we need to optimize this guy. And we'll animate the clouds in a timelapse style.Īnd not to leave gas giants out there in the cold, we have you covered too.Īsteroid from scratch? Easy. We’ll take a look at procedural texturing to create any number of exo-planets. Have you ever wanted to create a 3D planet, then zoom in and see the beautiful details? Look no further. Then we’ll experiment with more advanced multi-layered planets with atmosphere. We’ll get started by creating simple rocky planets.
#Space phenomena software
Software Used: Blender 2.77-2.78, Cycles, Krita, Gimp.2 Workflows: Procedural and Image-based.Gleb Alexandrov - Caffeinated Artist, Founder of Creative Shrimp Website WHAT'S INSIDE?
Quasars, gas giants, nebulae and black holes - these things can make you and your computer suffer.Īfter watching this video course you’ll be ready to create even the most complex space phenomena in Blender.Īidy Burrows - Artist, Overly Optimistic, Co-Author Creative Shrimp State densities of confined (‘‘particle in a box’’) states are revealed in the spectroscopic images.Have you ever wanted to be a sci-fi filmmaker? Create your own Star Wars fan fiction in Blender? Or just add a jaw-dropping space render to your portfolio?Ĭreating artistically pleasing space phenomena can be tricky. Finally, we show that when the size of a terrace is decreased to a few coherence lengths, as in the case of small metal islands, quantum size effects appear. The circular LDOS waves that surround individual adsorbates on the terraces can be used to obtain information on their nature and charge state. At high k ∥, however, the barriers become permeable. Analysis of the properties of the oscillations shows that at low k ∥, steps act very much like hard walls isolating the surface states of different terraces. This model also explains the energy dependence of the amplitude of the oscillations and provides a basis for comparing results from different metal surfaces. We show that the decay of the amplitude of the oscillations as a function of distance from the scatterer can be accounted for by a model that describes the loss of coherence as a result of the wave number ( k ∥) spread of the states probed by the STM. Analysis of the LDOS oscillations provides insights into the scattering phenomena involved. These scattering events lead, through interference, to an oscillatory local density of states (LDOS), which is imaged in maps of ( dI/ dV)/( I/ V). The results involve electron scattering by steps and point defects (adsorbates) at Au(111) and Ag(111) surfaces. Real space studies of the interaction of the two‐dimensional electron gas provided by metal surface states with localized scatterers are presented.
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