Narrow Bandpass Filters

A narrow bandpass filter is a specialized optical filter designed to isolate a narrow region while rejecting all other wavelengths of light. At Shanghai Optics we produce ultra narrow bandpass filters which feature high transmission over the passband and deep blocking of all other regions. Our narrow bandpass filters are manufactured using state of the art plasma deposition technology, and the resulting thin film filters are both precise and incredibly durable.

You will get efficient and thoughtful service from yanggu.

Narrow Bandpass Filter Specifications

Since each narrow band filter transmits only specified wavelength ranges, the key specifications of these filters relate to the location and size of the pass band as well as the completeness of both rejection and transmission.

The center wavelength of a narrow band filter, abbreviated CWL, is the midpoint of the pass band or transmitting region. This is also the location of peak transmission.

The full-width half-max (FWHM) of the bandpass filter gives the width of the pass band at half of maximum transmission. The FWHM of a narrow band pass filter will be less than 6% of the central wavelength.

While some narrow passband filters feature a flat top, others have a peaked pass band shape. The flatness of the transmitting region in percentage points is given by the pass band ripple of the filter, and a low pass band ripple is equivalent to a flat top narrow band. Flat top filters are in especially high demand in LiDAR applications, where the filter must operate without spectral drift due to temperature cycling.

Blocking in the rejection region of a narrow band filter is described by the optical density of the filter; deep blocking density may be considered to be OD of 6.

Applications of our Ultra Narrowband Filter

Our ultra narrow band filters are designed to meet the unique requirements of sophisticated imaging setups and experimentation. The hard coating and durability of these optics means that our ultra narrowband optical filters are ideal for laser cleanup as well as for laser line and laser excitation filters. They also have applications in flow cytometry, DNA sequencing, PCR diagnostics, fluorescence microscopy, LIDAR, and Raman spectroscopy. In cytometry and fluorescence in-situ hybridization, they can be key to reducing spectral cross-talk.

Ultra Narrowband Filters at Shanghai Optics

At Shanghai Optics we take pride in manufacturing ultra narrowband filters featuring durable optical coatings. Our stock narrow bandpass filters are manufactured from UV fused silica and include options with center wavelengths from 355 to nm. The FWHM of our in-stock narrowband filters is from 1.3 (for a filter with 355 nm CWL) to 4.0 nm (for a nm CWL filter). Our filters have a surface quality of 60-40 scratch dig, and a laser damage threshold of 0.1 J/cm2 @ 532 nm (10ns pulse width).

Please contact us to receive a full catalog of our in-stock narrow band filters or to discuss custom options. Our engineering team has extensive experience in designing complex optical systems for a wide variety of applications, and we have been a trusted source of custom optics for more than fifty years.

Ever wondered how deep-sky astrophotographers create images of objects in space through their telescope? You guessed right &#; a narrowband filter is an answer! These filters are widely used in many applications, ranging from scientific research to industrial manufacturing. Our intuitive guide will explain in detail what narrowband filters are, their working principles, and the settings where they are common. Let&#;s begin!

What Is a Narrowband Filter?

Narrowband filters, as the name implies, are filters that only allow a narrow range of frequencies to pass through while blocking all other frequencies. This is a direct contrast to broadband filters, enabling a wide range of frequencies while blocking unwanted ones.

As mentioned before, there are common applications where the need to isolate specific spectral features and filter out unwanted light is required. These include scientific, industrial, and medical settings. In general, manufacturers ensure high precision and accuracy when making the narrowband filter. This is because they are often integrated with other optical components to achieve specific performance requirements.

What Are the Different Types of Narrowband Filters?

Interference filters: An interference filter, also known as a Fabry-Pérot filter, is a narrowband filter commonly used in optics and spectroscopy. It consists of multiple thin layers of dielectric material deposited onto a substrate, with alternating high and low refractive indices. This layer structure creates a series of reflections and interference effects, which allow the filter to selectively pass certain wavelengths of light while blocking others.

Bandpass filters:  These filters allow a specific range of frequencies to pass through while blocking all other frequencies. You can find them in various applications, including telecommunications, medical equipment, and scientific instruments. An optical bandpass filter is typically constructed from a combination of inductors and capacitors and can be designed with different resonant circuits to achieve the desired performance characteristics. The term &#;optical&#; typically refers to the range of wavelengths visible to the human eye, ranging from approximately 400 to 700 nanometers. The choice of bandpass filter depends on factors such as the required center frequency, bandwidth, and level of attenuation needed.

Cavity filters: These filters play a significant role in microwave and RF applications. They are constructed from a resonant cavity, such as a metal enclosure or waveguide, which selectively passes frequencies within a narrow bandwidth.

For more Narrow Bandpass Filter supplierinformation, please contact us. We will provide professional answers.

Crystal filters: These filters use quartz or other crystals to pass certain frequencies within a narrow bandwidth. They are an important feature in radio communications and audio applications.

When Is a Narrowband Filter Used?

These filters particularly come in handy when the signal of interest is weak and needs to be separated from background noise or other unwanted light.

Astronomy

Astronomers count on narrowband filters when isolating specific emission lines of gases in celestial objects. This enables them to study the composition and structure of stars, galaxies, and other celestial bodies.

Remote Sensing

Another application where narrowband filtering is crucial is remote sensing. You can detect specific atmospheric or surface features using narrowband filters. Some examples include satellite imaging, lidar, and other sensing applications to measure environmental parameters such as temperature, humidity, and pollution.

Medical Imaging

In medical imaging, scientists use narrowband filters to isolate specific cellular or molecular features, particularly in fluorescence microscopy and Raman spectroscopy. This enables medical researchers and practitioners to study disease processes and diagnose medical conditions.

Telecommunications

Narrowband filters are used to filter out unwanted signals and noise from optical fiber networks. They are used in wavelength division multiplexing (WDM) and dense wavelength division multiplexing (DWDM) systems to transmit multiple signals over a single fiber.

Why Do Astronomers Use Narrowband Filters?

Narrowband imaging, which isolates particular emission lines of gases in astronomical objects, is one important use of narrowband filters in astronomy. Using narrowband filters, astronomers may isolate certain light wavelengths to analyze the spectral characteristics of celestial objects.

This method helps astronomers better comprehend the properties and operations of celestial objects.

In other words, they may learn more about how stars, galaxies, and other planetary systems develop and evolve by looking at the intensity and distribution of emission lines, which can show the temperature, density, and velocity of ionized gas in nebulas.

Conclusion

We hope this article has provided a better understanding of narrowband filters. As you can see, many industries utilize this innovative tool for various applications. Here is the interesting part &#; if you are looking for high-quality narrowband filters for your business, Shanghai Optics is the way to go! We specialize in producing and selling top-of-the-line narrowband filters that are perfect for many applications. Our filters provide superior performance, reliability, and durability, ensuring you get the best possible results every time.

So why wait? Contact us today to learn more about our products and place your order! Let us help you take your business to the next level with our top-quality narrowband filters!

If you are looking for more details, kindly visit 940nm Bandpass Filter.