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Several models of light scattering are provided so you can choose one that best suits your goals.

Color Parameters

Color

Color is typically where textures or patterns are connected to create scattering color for objects. This is where you'd create the color of candle wax or skin variation like freckles or the skin on lips. The RGB values correspond to how far the light travels in that color band. For example, and RGB value of 0.8 0.65 0.5 means Red spreads furthest at 0.8, then Green and finally Blue traveling the least distance in the object scatter result. The below table may be useful. Note that the first column is the diffuse color of the object, that would be handled by layering Lama Diffuse LamaDiffuse with a LamaSSS to handle the actual scattering color of the object interior.

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Here is where you supply a signal, either a texture or procedural pattern, to create a bump to the surface to "fake" surface details like small bumps or scratches. This means an artist doesn't have to model these tedious and often repetitious parts of a model.

Subsurface Parameters

Radius

When light enters a surface, it can travel for a certain distance before it stops (is absorbed or exits). This control specifies how far to travel in scene units. Larger values allow light to go further into a surface and increase the effect. This may also make objects look softer and cause some small modeled detail to be lost as the light scatters beyond those details.

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• Path-traced Davis (non-exponential) - This method provides a robust light transport solution to produce scattering. This technique works well with thin geometry and edges, replacing times where you might need to combine methods. Note that too-large Radius settings may cause fireflies or bright spots in the resulting render. The Davis or Non-Exponential mode is brighter as light carried further into the object.
• Path-traced exponential - The same as the Davis mode above but light falloff is faster, this may make for a darker result. With the exception of clouds, this model is typical of reality.
• Diffusion Burley - Produces accurate effects while preserving details. Since this is not path-traced, it may appear to resolve more quickly but it is not as well suited for very thin objects and might appear "splotchy". However, it is very common for most other uses. You can find more information on the technical details of this model here

Path-traced Modes Parameters

IOR - Index of Refraction

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This can increase the distance light travels, just like the Radius control. However, this control attempts to maintain the finer details while making light scatter further.

Burley Mode Parameter

Follow Topology

This considers the surface normals (shape and implied details) while calculating the scattering. This may help preserve lost details.

Common Parameters

Subset

Setting a value here can control what objects may contribute to one another indirectly as light may go from one surface to another. Sometimes an object creates halos or darkening when they interpenetrate one another and this control specifies what does and does not contribute based on their value.

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