The Laser Tool fires a laser into the simulation in the direction of the cursor. If the laser intersects with an object with a simulated surface, the laser will impart energy into the object, heating its surface. The rate at which this energy will be transferred depends on the laser's power and radius.
Tool Details[edit | edit source]
Location[edit | edit source]
Settings[edit | edit source]
The Laser Tool has a number of settings that affect the rate at which the laser will heat the surface of an object.
- Universe Sandbox provides a number of laser presets representing real and fictional lasers.
- The Auto laser will automatically set its Radius and Power based on the size of the object it is fired at.
- The Magic Cold Laser will remove heat from the object's surface rather than adding heat.
- The Radius property represents the size of the spot that the laser shines on the object's surface. Increasing the Radius of the laser will increase its Power Out.
- This property represents the rate at which energy is added to the gain medium of the laser. Increasing the Power of the laser will increase its Power Out.
- Lasers are characterized based on the wavelength (i.e., color) of light that they emit.
- This property represents the gain medium of the simulated laser, and will determine the Wavelength.
- Power Out
- The Power Out of the laser represents the rate at which energy will be added to the object that the laser hits. The value of the Power Out is automatically calculated by Universe Sandbox based on the laser's Radius and Power.
- Show Beam
- A real laser is not visible until it hits an object or passes through a material that will diffract its light. When Show Beam is turned on, the laser will be artificially visible.
Simulation Effects[edit | edit source]
Surface Temperature[edit | edit source]
When a laser hits a body with a simulated surface, energy will be added to that region of the surface at a rate determined by the laser's Power Out property. This energy will be used to calculate the temperature change of that part of the surface.