While using OAPs it is also important to remember that the orientation matters. If a collimated beam is incident upon the off axis mirror from an off-axis focal angle, it will not produce a diffraction limited image.  If a spherical wave enters on axis, it won’t produce a collimated beam either.

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Request a quote online today or contact an S.O. representative to learn more about our custom off-axis parabolic mirrors and other optical manufacturing capabilities.

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Our optical engineers are available to provide off-axis parabolic mirror consulting and can help you design and produce a mirror that best matches your application. Feel free to contact us with a request for a quote, or for more information on custom options.

Mounting Your Off Axis Parabolic MirrorThe flat back of each of our OAP mirrors is equipped with three threaded holes for mounting. Typically an adaptor plate will be placed between the OAP back surface and a kinematic mirror mount.Since off axis mirrors are not rotationally symmetric, rotation must be restricted around the optical axis. We recommend using a precision machined mount since alignment of the other six degrees of freedom is very sensitive.Alignment of an OAPTo align your off axis parabolic mirror to collimate a spherical wave, follow these steps:Check that the incoming beam is at an appropriate height and is propagating parallel to your reference surface.Adjust the height of your mount so that the center of the mirror will match the center of the incident light.Position the center of your mirror a one focal length distance(that is, reflected focal length) from the origin of the sphericalMatch the angle of your mirror to the reflection angle designed into your optical system.Use a shear plate interferometer to check collimation. This is a four step process, in which you first check collimation in one plane, adjust as necessary, then check collimation in the orthogonal plane, and after adjusting, go back to the first plane again and readjust. Each plane will have to be checked at least twice, perhaps more, as the adjustments are not decoupledAs a last step, check that the output beam is parallel to the reference surface.Specifications of Off-Axis Parabolic Mirrors from S.O.Shanghai Optics manufactures off axis parabolic metal mirrors in curvatures of 15°, 30°, 45°, and 60° off-Axis options. Our standard mirrors are manufactured from high quality aluminum, and come in diameters between 2.5 and 10 inches. Our mirrors are hand polished to an accuracy of 1/20 lambda RMS.We are also able to provide off-axis parabolic mirrors in custom sizes and coatings upon request, so you can find an OAP mirror to meet your exact project requirements.Possible coatings include:Enhanced aluminum coating with 99 % reflectivity (for visible spectrum)9% dielectric coating for laser use (for visible spectrum)UV aluminum/MgF2 coating for laser use (near infrared region)Ion plated protected silver coating (for NIR, up to 2 um)Protected gold coating (for 750 nm to far infrared applications).Our optical engineers are available to provide off-axis parabolic mirror consulting and can help you design and produce a mirror that best matches your application. Feel free to contact us with a request for a quote, or for more information on custom options.Request a quote online today or contact an S.O. representative to learn more about our custom off-axis parabolic mirrors and other optical manufacturing capabilities.Learn More

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We are also able to provide off-axis parabolic mirrors in custom sizes and coatings upon request, so you can find an OAP mirror to meet your exact project requirements.

Off-axis parabolic mirrors are designed to eliminate this problem. These mirrors are sections of a parent paraboloid that are taken from a point other than the center axis. Depending on how far away from the axis the section originates, an off-axis parabolic mirror may feature a large or a small angle. But since these mirrors focus light to offset points, outside the collection area, there is no issue with receiver shadowing. This makes off-axis parabolic mirrors the optic of choice for long-range and precision instrumentation. The unrestricted  access these mirrors give to the system’s focal point also leads to compact system designs.

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An off axis parabolic mirror is an optical device which transforms plane waves into spherical waves and spherical waves into plane waves. This makes it useful for collimating light from a point source as well as focusing collimated light to a point. It does this with high accuracy, and is not dependent on wavelength. Shanghai Optics high quality off-axis parabolic mirrors can be used in broadband UV, visible, and IR applications.

To provide the best results, we hand-polish our parabolic mirrors from large aluminum blanks and finish them to an accuracy of 1/20 lambda RMS. Our standard mirrors come in diameters between 2.5 and 10 inches and curvatures 15, 30, 45 and 60 degrees off-axis. We also provide off-axis parabolic mirrors in custom sizes and coatings upon request, so you can find an OAP mirror to meet your exact project requirements.

Shanghai Optics manufactures off axis parabolic metal mirrors in curvatures of 15°, 30°, 45°, and 60° off-Axis options. Our standard mirrors are manufactured from high quality aluminum, and come in diameters between 2.5 and 10 inches. Our mirrors are hand polished to an accuracy of 1/20 lambda RMS.

Off axis parabolic mirrors should only be used at infinite conjugates. They can produce a perfectly collimated beam from a spherical wave, or diffraction limited imaging when focusing a collimated beam, but when they’re used at finite conjugates the image quality will be abysmal.

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Off Axis Parabolic Mirror for Every ApplicationAn off axis parabolic mirror is an optical device which transforms plane waves into spherical waves and spherical waves into plane waves. This makes it useful for collimating light from a point source as well as focusing collimated light to a point. It does this with high accuracy, and is not dependent on wavelength. Shanghai Optics high quality off-axis parabolic mirrors can be used in broadband UV, visible, and IR applications.Understanding Parabolic MirrorsA parabolic mirror is a reflector in the shape of a circular paraboloid. Typically made of a highly reflective material such as aluminum, a standard parabolic mirror will center on the vertex of the paraboloid. This is the point where the curvature is greatest, and where the paraboloid is symmetrically divided by its axis. Parabolic mirrors are effective at collecting collimating light and focusing this light to a point, but the receiver will often cast s shadow on the paraboloid’s vertex. This blocks a significant part of the mirror from reflecting light, resulting in substantial signal loss.Off-axis parabolic mirrors are designed to eliminate this problem. These mirrors are sections of a parent paraboloid that are taken from a point other than the center axis. Depending on how far away from the axis the section originates, an off-axis parabolic mirror may feature a large or a small angle. But since these mirrors focus light to offset points, outside the collection area, there is no issue with receiver shadowing. This makes off-axis parabolic mirrors the optic of choice for long-range and precision instrumentation. The unrestricted  access these mirrors give to the system’s focal point also leads to compact system designs.Applications of Off-Axis Parabolic MirrorsOur OAP metal mirrors are used in spectrometers, interferometers, astronomical optical instruments, spectrum analyzers, and in beam expanders and beam collimators. They can be used in sequence to create a relay system, since with multiple mirrors you can switch between focal plane and pupil plane of your system without degradation in image quality.Limitations of an Off Axis Parabolic MirrorOff axis parabolic mirrors should only be used at infinite conjugates. They can produce a perfectly collimated beam from a spherical wave, or diffraction limited imaging when focusing a collimated beam, but when they’re used at finite conjugates the image quality will be abysmal.While using OAPs it is also important to remember that the orientation matters. If a collimated beam is incident upon the off axis mirror from an off-axis focal angle, it will not produce a diffraction limited image.  If a spherical wave enters on axis, it won’t produce a collimated beam either.How Are Off-Axis Parabolic Mirrors Produced?Manufacturers can produce off-axis parabolic mirrors in several ways. One method involves using a rotating furnace to form the mirrors from a molten base material. A simpler way is to cut and shape the off-axis paraboloids from metal blanks. At Shanghai Optics, we use the latter method to produce high-quality standard and custom OAP mirrors quickly.To provide the best results, we hand-polish our parabolic mirrors from large aluminum blanks and finish them to an accuracy of 1/20 lambda RMS. Our standard mirrors come in diameters between 2.5 and 10 inches and curvatures 15, 30, 45 and 60 degrees off-axis. We also provide off-axis parabolic mirrors in custom sizes and coatings upon request, so you can find an OAP mirror to meet your exact project requirements.

On the contrary, larger ring lights are suitable for indoor use as they require an AC/DC adapter to draw more power. However, for longer shoots, ring lights ...

Since off axis mirrors are not rotationally symmetric, rotation must be restricted around the optical axis. We recommend using a precision machined mount since alignment of the other six degrees of freedom is very sensitive.

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The maximum number of devices (AP and Switches) per site is 25 but you can create more than one site on the portal.

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Manufacturers can produce off-axis parabolic mirrors in several ways. One method involves using a rotating furnace to form the mirrors from a molten base material. A simpler way is to cut and shape the off-axis paraboloids from metal blanks. At Shanghai Optics, we use the latter method to produce high-quality standard and custom OAP mirrors quickly.

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A digital camera uses an array of millions of tiny light cavities or "photosites" to record an image.

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The flat back of each of our OAP mirrors is equipped with three threaded holes for mounting. Typically an adaptor plate will be placed between the OAP back surface and a kinematic mirror mount.

Our OAP metal mirrors are used in spectrometers, interferometers, astronomical optical instruments, spectrum analyzers, and in beam expanders and beam collimators. They can be used in sequence to create a relay system, since with multiple mirrors you can switch between focal plane and pupil plane of your system without degradation in image quality.

A parabolic mirror is a reflector in the shape of a circular paraboloid. Typically made of a highly reflective material such as aluminum, a standard parabolic mirror will center on the vertex of the paraboloid. This is the point where the curvature is greatest, and where the paraboloid is symmetrically divided by its axis. Parabolic mirrors are effective at collecting collimating light and focusing this light to a point, but the receiver will often cast s shadow on the paraboloid’s vertex. This blocks a significant part of the mirror from reflecting light, resulting in substantial signal loss.

Optics is a branch of physics that deals with how light is generated, propagated, and detected. It aims to explain the properties of light, how it interacts ...