optical filters (original) (raw)
Definition: devices with a wavelength-dependent transmission or reflectance
photonic devices- optical elements
- achromatic optics
- adaptive optics
- aspheric optics
- custom optics
- diffractive optics
- fiber optics
- flat optics
- large diameter optics
- laser optics
- nonlinear optics
- optical elements for imaging
- polarization optics
- refractive optical elements
- reflective optical elements
- beam splitters
- beam collimators
- beam expanders
- beam homogenizers
- diffusers
- group velocity delay compensation plates
- optical apertures
- optical attenuators
- optical filters
* interference filters
* dichroic mirrors
* rugate filters
* etalons
* Fabry–Pérot interferometers
* diffraction gratings
* birefringent tuners
* acousto-optic tunable filters
* cold mirrors
* hot mirrors
* arrayed waveguide gratings
* Lyot filters
* neutral density filters
* monochromators
* (more topics) - optical modulators
- optical windows
- phase corrector plates
- (more topics)
Related: interference filtersneutral density filtersrugate filterstunable optical filtersvolume Bragg gratingsacousto-optic tunable filtershot mirrorscold mirrorswavelength tuninggain equalizationoptical fiber communications
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Contents
What are Optical Filters?
An optical filter is usually meant to be a component with a wavelength-dependent (actually frequency-dependent) transmittance or reflectance, although there are also filters where the dependence is on polarization or spatial distribution, or some uniform level of attenuation is provided. Filters with particularly weak wavelength dependence of the transmittance are called neutral density filters.
Types of Optical Filters
There are many different types of optical filters, based on different physical principles:
Absorption Filters
Absorbing glass filters, dye filters, and color filters are based on intrinsic or extrinsic wavelength-dependent absorption in some material such as e.g. a glass, a polymer material or a semiconductor. For example, one may exploit the intrinsic short-wavelength absorption of a semiconductor, or extrinsic absorption caused by certain ionic impurities or by semiconductor nanoparticles in a glass. As the absorbed light is converted into heat, such filters are usually not suitable for high-power optical radiation.
Interference Filters
Various kinds of optical filters are based on interference effects, combined with wavelength-dependent phase shifts during propagation. Such filters — called interference filters — exhibit wavelength-dependent reflection and transmission, and the light which is filtered out can be sent to some beam dump, which can tolerate high optical powers.
An important class of interference-based filters contains dielectric coatings. Such coatings are used in dielectric mirrors (including dichroic mirrors), but also in thin-film polarizers, and in polarizing and non-polarizing beam splitters. Via thin-film design it is possible to realize edge filters, low-pass, high-pass and band-pass filters, notch filters, etc.
The same physical principle is used in fiber Bragg gratings and other optical Bragg gratings such as volume Bragg gratings.
Apart from step-index structures, there are also gradient-index filters, called rugate filters. That approach allows one to make high-quality notch filters, for example.
Fabry–Pérot interferometers, etalons and arrayed waveguide gratings are also based on interference effects, but sometimes exploiting substantially larger path length differences than monolithic devices. Therefore, they can have sharper spectral features.
Lyot Filters
Lyot filters are based on wavelength-dependent polarization changes. Similar devices are used as birefringent tuners in tunable lasers.
Refractive and Diffractive Filters
Other filters are based on wavelength-dependent refraction in prisms (or prism pairs) or on wavelength-dependent diffraction at gratings, combined with an aperture.
Acousto-optic Filters
There are acousto-optic tunable filters, where it is exploited that Bragg reflection at an acoustic wave works only within a narrow frequency range.
Tunable Optical Filters
While most types of optical filters exhibit fixed optical characteristics, some types are tunable, i.e., their optical characteristics can be actively modified. Some examples:
- The resonances of an optical resonator can be tuned by modifying the resonator length with a piezo-controlled mirror. That way, one can tune the optical transmission peaks.
- Etalons can simply be tilted to shift their transmission peaks.
- Acousto-optic filters can be tuned through their electrical input, which can affect the amplitude or frequency of the generated acoustic wave. See the article on acousto-optic tunable filters.
- The principle of liquid crystal modulators can be used.
See the article on tunable optical filters for more details.
Different Filter Shapes
Concerning the shape of the transmission curve, there are
- bandpass filters, transmitting only a certain wavelength range
- notch filters, eliminating light of a certain wavelength range, e.g. by reflecting it
- edge filters, transmitting only wavelengths above or below a certain value (high-pass and low-pass filters)
Of course, a wide range of filter shapes can also be realized, particularly with interference filters.
Figure 1: Wavelength-dependent reflectance of a dielectric edge filter with high transmittance below 980 nm and high reflectance above 1030 nm. Starting from an analytically formulated design, the performance has been further optimized numerically (using the software RP Coating).
Such a filter can be used for injecting pump light into the ytterbium-doped crystal of a laser.
Applications
Some examples of the many applications of optical filters are:
- Filters can eliminate some unwanted light. Some examples: – Eye protection against laser radiation with laser safety glasses is often done with filters which can eliminate e.g. infrared laser light while transmitting visible light (→ laser safety). – Similarly, sunglasses attenuate visible light and filter out ultraviolet light. – Green laser pointers are often equipped with filters for removing residual infrared light. – Heat control filters in the form of cold mirrors are used to transmit visible light while removing intense infrared radiation, as it is emitted e.g. by hot surfaces. – Similarly, hot mirrors can remove infrared light from a beam path by reflecting it. – Sharp edge filters or bandpass filters can be used in fluorescence microscopes for removing pump light from the fluorescence signal light.
- Wavelength-dependent losses are useful for gain equalization of fiber amplifiers, as used in optical fiber communications. Similarly, filters can be used for balancing a photodetector response or the non-uniform optical spectrum of a light source.
- In the image sensors of photo cameras, for example, RGB filters allow for separate detection of the intensity in different colors, so that color images are obtained.
- Filters in the form of fiber-optic add–drop multiplexers can extract or inject single channels in wavelength division multiplexing optical data transmission systems.
- Intracavity filters in lasers can be used for wavelength tuning and for single-frequency operation of lasers, or for suppressing lasing at unwanted wavelengths.
- Filters can suppress effects of amplified spontaneous emission in amplifier chains.
- The combination of a tunable filter and a broadband photodetector can be used for the spectral analysis of optical signals.
- Neutral density filters are used for attenuating optical signals without modifying their spectral shape.
Suppliers
Sponsored content: The RP Photonics Buyer's Guide contains 269 suppliers for optical filters. Among them:
⚙ hardware
Optical filters selectively allow certain wavelengths of light to pass freely while blocking other wavelengths. Avantier manufactures a wide range of optical filters for engineering, scientific, and photographic applications.
⚙ hardware
World leader in Fiber Bragg grating and Fabry Perot filters. Product portfolio includes athermal Fabry–Pérot etalons (TWR30) and athermal FBGs (TWR50), as well as tunable FBGs (T10-T980) and tunable Fabry–Pérot filters (TFP10-TFP50).
⚙ hardware
Universe Kogaku offers various lens filters and accessories, specifically UV and IR band pass filters for use with our UV quartz lenses.
⚙ hardware
IRD Glass custom manufactures optical filters that expand the applications and improve the capabilities of almost any optical component. IRD works with a variety of filter glass materials from all the leading filter glass manufacturers: Schott, Kopp, Ohara, Hoya and others. IRD Glass also has the capability to apply thin-film optical coatings, from UV through IR spectrum.
⚙ hardware
Shanghai Optics manufactures a wide range of custom optical filters for engineering, scientific, and photographic applications.
⚙ hardware
UltraFast Innovations (UFI®) provides spectral filters for ultrashort pulse applications — for example, for preserving the pulse duration of reflected or transmitted pulses.
By using such spectral filters, researchers from Prof. Krausz’s group were able to build a so-called wave synthesizer. We were able to split or combine radiation from 250 to 1100 nm in four channels: 250–290, 290–350, 350–500, and 500–1100 nm. The phases of reflection and transmission are controlled. This allows one to precisely combine radiation from four channels, both spatially and temporally, resulting in the generation of sub-optical-cycle pulses. Based on that technology, we have developed the first commercial light field synthesizer.
⚙ hardware
Artifex Engineering offers custom absorption filters and dielectric filters in almost any design. Bandpass, long pass, short pass or ND filters can be tailored to your wavelength range. The filters can be cut to any shape. Black anodized aluminium rings may be provided for ease of mounting. Visit our product page for more information. We look forward to your inquiry.
⚙ hardware
Mastering advanced FBG writing technologies with holographic phase mask and e-beam phase mask, O/E Land can produce many different types of fiber Bragg gratings with different types of packaging. We have full license for the CRC/UTC Fiber Bragg Grating Technologies Portfolio, and have a vast inventory of fiber gratings.
O/E LAND INC. has also developed a strong expertise in the writing of multi-grating arrays with 2, 3, 4, 6 or up to 16 fiber gratings in a single fiber, with no need for splicing. Fiber Bragg grating arrays can be used in DWDM, CWDM optical systems to add or drop multiple channels simultaneously, and in sensors and for instrumentation purposes.
⚙ hardware
Ecoptik produces glass filters of different types (absorbing or with thin film coating) for selecting certain radiation bands. We can make many different types and custom optical filters, such as optical comb filters, high/low pass filters and linear variable filters.
⚙ hardware🧩 accessories and parts🧴 consumables🔧 maintenance, repair📏 metrology, calibration, testing💡 consulting🧰 development
Hangzhou Shalom EO is a professional supplier of optical filters, with a strong focus on technical expertise, we leverage advanced manufacturing technologies and precision metrological approaches to deliver optical filters for accurate and flexible control of the spectral characteristics of light.
Shalom EO provides an extensive range of stock and custom optical filters, including bandpass filters, long pass filters, short pass filters, fluorescence filters, neutral density filters, dichroic filters, notched filters, colored glass absorptive filters, IR filters, laser line filters, biochemical optical filters, machine vision filters, linear variable filters, multispectral filters, and pixel-level filters.
Harnessing cutting-edge advancements in a combination of substrate material engineering, coating, and processing techniques, Shalom EO aims to optimize the selection and separation capabilities of our optical filters, that a maximum optical density of OD6 can be obtained. With a vast list of inventories and miscellaneous custom specifications, our optical filters cover wavelength ranges from UV to IR, where various bandwidths are available.
⚙ hardware
UM Optics currently has six different coating machines, including one for diamond-like carbon (DLC) and two for broadband anti-reflection coatings. We mainly produce infrared anti-reflection coatings, infrared filters, and diamond-like carbon coatings, providing customers with various coating services and products.
⚙ hardware
Exail (formerly iXblue)’s gain flattening filter based on fiber Bragg grating technology represents an easy and effective solution to flatten the gain in a WDM systems. The high accuracy (very low ripple) allows the use of cascaded filters, and the return loss is high (low reflections).
The IXC-FBG-PS bandpass filter has a sharp resonance peak in the transmission spectrum with less than 1 dB of insertion loss. It can be used in telecom as well as in sensing applications, also for distributed feedback (DFB) fiber lasers.
Exail offers a broad range of Fiber Bragg Gratings (FBG) to address a wide array of applications in telecommunications, sensing, harsh environments, research and development, etc.
The excellent know-how in the FBG manufacturing process gives Exail the capability to produce various filters on a variety of in house fibers. We stand ready to adapt our services to your needs from quick prototyping to volume production.
⚙ hardware
LEUKOS offers the widely tunable filter BEBOP. Combine this with our supercontinuum source Rock to obtain a broadband tunable light source.
The BEBOP can be tuned from 350 nm to 850 nm with a bandwidth between 7 nm and 100 nm. It reaches a transmittance of up to 90% and a blocking OD of >4. You can have a free-space output beam or a fiber-coupled output, and there is an additional infrared output.
See our data sheet.
⚙ hardware
Edmund Optics offers a variety of optical filters for many applications, including bandpass interference, notch, edge, dichroic, color substrate, or ND. Edmund Optics also offers highly durable hard coatings for applications that require high optical densities with maximum performance.
⚙ hardware
We offer custom optical filters: band-pass, long-pass, short-pass, dichroic, neutral density, dichroic.
⚙ hardware
OPTOMAN optical filter coating designs are available in short pass, long pass or bandpass configurations. Our IBS-coated optics are optimized for high power applications and feature spectral drift-free performance, which is why very sharp edge configurations are feasible.
Standard in-stock IBS coated optics can be found in OPTOSHOP.
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