Filter Orientation Guide
Optical filters are crucial components in a range of scientific and industrial applications. Whether employed in spectroscopy, microscopy, laser systems, or astronomical instrumentation, their role in manipulating light waves to extract specific wavelengths or block unwanted frequencies is pivotal.
Their effectiveness hinges greatly upon their precise alignment. Ensuring their proper orientation is not merely a procedural formality but an imperative for attaining peak performance. Misalignment can lead to compromised results, affecting the accuracy of measurements, the clarity of images, or the efficiency of processes. Ensuring their proper orientation is paramount to achieving optimal performance.
DISCLAIMER:
The information provided below is based on the standard catalog parts and sizes offered by Chroma.
If you have any questions, or concerns, or require additional information about a specific part or size that might not be covered in this guide, please don't hesitate to Contact Us. We're always here to help ensure you get the most from your optical filters.
Orientation for Fluorescence Applications
Proper orientation of the filter is recommended to minimize autofluorescence and maximize performance. To aid in orientation, there is a caret/arrow located on the edge of each filter.
The three main optical filter components used in fluorescence microscopy are the excitation filter, emission filter, and dichroic mirror or beamsplitter as seen here.
Filter Types
Excitation Filters
Excitation (x) filters should be positioned with the arrow pointing toward the specimen, toward the inside of the cube, and away from the light source. The arrow points in the direction the light is traveling. Incorrect positioning could result in increased background levels due to autofluorescence.
Emission Filters
Emission (m) filters should be placed with the arrow pointing toward the specimen, toward the inside of the cube, and away from the detector/eye. If placed incorrectly, the filter may not effectively separate the emission signal from the excitation light, potentially leading to poor image contrast.
Dichroic Filters (Mirrors/Beamsplitters)
Dichroic mirrors or beamsplitters should be mounted with the primary coated surface towards the light source, excitation filters, and the specimen. Look for the arrow on the side, pointing to the primary coating. Incorrect orientation will alter the position of the excitation light beam and may increase background levels due to autofluorescence.
Orientation for Astronomy and Astrophotography Applications
Astronomy filters made by Chroma do not come with an orientation marker, such as a caret or arrow. This is due to the design of the filter which is built to deliver peak performance regardless of which side is facing the light source or the detector.
However, it is worth noting that some users have reported slight variations in effectiveness when using one side or the other in their specific setups. Other variables in the optical system, such as the properties of the individual lenses, the light source, or the detector are the most likely drivers of this variability.
In general, there should be no significant difference in performance regardless of the filter orientation.
Orientation for Machine Vision Applications
Similar to our astronomy filters, the orientation of Chroma's optical filters used for machine vision applications is not critical to their performance due to the design of these filters. They are built to deliver peak performance regardless of which side is facing the light source or the detector.
However, for consistency and ease of use, the primary bandpass coating is assembled so it is positioned against the ring lip, away from the washer side. This is done to ensure uniformity across setups and can aid in troubleshooting should any issues arise.
Still have questions?
If you have more questions or need further information about the orientation or proper cleaning and handling of your optical filters, please Contact Us. Our team is ready to assist and always happy to help you with your questions.