Go to GlobalSpec.com Home
Newsletter   FREE GlobalSpec e-Newsletters
Receive the latest news, trends, and technology relevant to your work.
(See Titles)

Understanding Spatial Filters

From Edmund Optics Inc.
 

 

Spatial Filters are designed to be used with lasers to "clean up" the beam. Often times a laser system does not produce a beam with a smooth intensity profile. In order to produce a clean Gaussian beam, a spatial filter is used to remove the unwanted multiple-order energy peaks and pass only the central maximum of the diffraction pattern (see illustration). Also, when a laser beam passes through a system, dust in the air or on optical components can disrupt the beam and create scattered light. This scattered light can leave unwanted ring patterns in the beam profile. The spatial filter removes this additional spatial noise from the system. The spatial filter assembly consists of a microscope objective, a pinhole aperture, and a positioning mechanism. The positioning mechanism has precision X-Y movements that center the pinhole at the focal point of the objective lens. Our TECH SPECTM Laser Objectives are designed for HeNe lasers (632.8nm) and provide the smallest spot sizes possible. Choosing the correct pinhole and objective combination will yield optimal results. The following equations were used to determine the values for the Aperture Selection Chart.

Product Announcements
CVI Melles Griot - Apertures- Spatial Filters- Microscope Components
Melles Griot announces that its full line of microscope components, apertures, and spatial filters is now available for purchase online at www.mellesgriot.com. (read more)
Polytec, Inc. - OFV-551/552 Fiber-Optic Interferometer
Polytec Laser Doppler Vibrometers are precision tools for non-contact vibration measurement. Designed to be quick, easy to operate and free from cross-talk or feedback problems, these instruments... (read more)
Fiberguide Industries, Inc. - High Power Laser Delivery Assemblies
Multimode, step-index optical fibers offer the most efficient and flexible delivery of high power laser beams. The correct components should be selected for minimizing beam quality degradation and... (read more)
Polytec, Inc. - Ultrafine Dynamics of MEMS as Revealed by the MSA
Polytec's latest technology is used for cutting edge applications in the field of Micro-Electro-Mechanical Structures (MEMS). Our Micro System Analyzer (MSA-500) combines powerful tools for analysis... (read more)
Olympus America Inc. - LEXT OLS4000 Laser Confocal Microscope
Olympus America has released the LEXT OLS4000 Measuring Laser Confocal Microscope. Designed for nanometer level imaging and measurement. Magnification ranges from 108x – 17,280x with resolution... (read more)
 
Topics of Interest
10.3.4   Light Delivery It is important to start with a point source or a well-collimated beam in order to focus a beam onto the retina. The light source in an SLO generally originates from a... (Read More)
The size (spatial coherence) and monochromaticity (temporal coherence) of the light source must satisfy certain minimum requirements that depend on the geometry of the system, as described by Hansen... (Read More)
10.3   SCANNING LASER IMAGING Scanning laser imaging systems were invented in 1955 by Marvin Minsky [19]. Scanning laser ophthalmoscopes (SLOs) were invented by Robert Webb in 1980 [20]. The... (Read More)
Overview Coherent light generated by lasers has properties different from light generated by other sources which we usually deal with in more conventional optical systems. If we look through a... (Read More)
10.3.7   Light Detection The light from the retina is descanned and is focused onto a confocal pinhole. Choosing the size of the confocal pinhole is important as it plays a role in governing... (Read More)