Laser Scanning Mirror

Its head rotates horizontally.

Laser scanning mirror.

The mirrors are designed for the use with high power lasers and are sized to accomodate up to 30 degrees of deflection. Including the group of galvano scanner mirrors where the optical coating a deflection range from 22 58 is taken into account and whose outer dimensions are adapted to the high scanning frequency. Mar1100 mems 2d laser scanning mirror a 2d mirror with both electrostatic and electromagnetic actuation methods a mems micro electro mechanical system mirror is a tiny solid state mirror mirror on a chip actuated by micro size motors in one or two dimensions. This biaxial mems micro electronic mechanical systems mirror operates at 28khz and 60hz with a 40 view angle making it a perfect engine for applications such as laser projection display tof and lidar.

Optics balzers offers a wide range of customized laser scanning mirrors. The mar1100 is a dual axis mems based scanning mirror targeted for miniature laser projectors and laser steering applications. Technology of sp8 confocal microscope a resonant scanner is a type of galvanometric mirror scanner that allows fast image acquisition with single point scanning microscopes true confocal and multiphoton laser scanning. In order to position a laser beam in two dimensions it is possible either to rotate one mirror along two axes used mainly for slow scanning systems or to reflect the laser beam onto two closely spaced mirrors that are mounted on orthogonal axes.

Every scanner consists of rotary motors board of electronics and laser scanning mirror. The mirror is crucial optical component in every 2d or 3d galvanometric system thus we pay extra attention to optical and mechanical properties. Scanner mirrors ulo optics offers the lsm series of monocrystalline silicon mirrors for use in galvo based scan heads. High acquisition speed is required to track fast processes especially in living samples.

The laser beam is used to measure the distance to the first object on its path. Low inertia is crucial for laser beam steering systems to attain the highest possible accelerations. The unique mim large aperture scanner design has a very low profile by building the compact precision scanning motor inside a hollow precision polygon mirror. It is based on industry leading mems technology with novel and precise actuation schemes.

A mirror tilts vertically. The mirror aperture is large enough to see hundreds of meters ahead of the vehicle. A four sided mim scanner can scan 120 degrees wide in front of the autonomous vehicle.