Introduction to Lidar
- Lidar uses laser light to illuminate the environment and measure the time it takes for the light to return to the sensor.
- Components of lidar include the laser source, optics, and photo detector.
- Different types of laser sources used in lidar: edge-emitting lasers and vertical cavity surface emitting lasers.
- Two techniques for illuminating the scene with laser light: flashlight lidar and scanning lidar.
- Flashlight lidar emits a broad beam to illuminate the entire scene at once.
- Scanning lidar uses a narrow beam and scans it across the scene.
- Gaussian beams and the paraxial wave approximation are used to describe the propagation of laser beams.
Angle of Divergence
- The angle of divergence (Theta D) determines how quickly a beam diverges.
- Theta D is almost equal to Lambda over Pi Omega zero, where Omega zero represents the waist radius of the beam at the focus point.
- The angle of divergence is inversely proportional to the waist radius.
- A smaller focus point results in quicker divergence.
Fiber Coupling
- Red laser coupled to a fiber, limiting the beam waist to the diameter of the fiber's core (10 microns).
- Laser beam tightly focuses at the tip of the fiber but quickly diverges afterward.
- Quick divergence leads to larger spot sizes when objects are farther away.
The Importance of Optics
- Optics, particularly lenses, are necessary for collimating beams that diverge quickly.
- Lenses can transform the beam waist diameter to a much larger size, reducing divergence.
- Lens collimates the beam coming out of the fiber, increasing beam diameter from 10 microns to approximately 7 millimeters.
- Collimated beam does not diverge as quickly as the original beam, allowing for better visibility even at a distance.
Application-specific Optics
- Optics can be designed according to specific application requirements.
- Lens selection based on desired beam diameter at a certain distance.
- Optics, such as lenses, are essential for controlling the divergence angle of a beam.
- Presenter acknowledges that the lens used in the demonstration was not designed for a red laser, but still serves to illustrate the purpose of optics in controlling divergence.
