Design, simulate, and optimize optical systems including lenses, mirrors, point & planar sources, etc.
- Design and characterize optical systems including lenses, mirrors, point or plane sources, 3d models and other components.
- Run ray tracing simulations on designed systems, to characterise the resulting system performance.
With EMSlice you can:
Optical Ray Tracing
Optical system design, prototyping, construction and testing can be a complex and costly process. Obtaining, assembling and testing equipment can be time consuming and large or small changes to the system may incur significant added costs and delays to the development of an optical system.
Optical ray tracing allows an optical system to be designed, tested and validated before incurring the cost and complexity of purchasing and configuring equipment etc.
Optical ray tracing is helpful in the design of different types of technologies, such as optical systems (lenses, mirrors, etc), high frequency radio technologies such as terrahertz communications or radar systems, lidar systems, among others.
How does Ray Tracing work?
EMSlice will provides a point-and-click user interface through which you can design the optical system you require.
Once the system is designed, EMSlice will run a set of calculations based on the system components’ parameters, configuration and positioning to determine the system’s performance.