Mirrors
Spherical Reflection Mirrors, Off-Axis Parabolic Mirrors, Plano Mirrors With High Reflection Coating
Optical Mirrors are designed to reflect light for a variety of applications, including beam steering, interferometry, imaging, or illumination. Optical Mirrors are used in a wide range of industries, such as life sciences, astronomy, metrology, semiconductor, or solar.
Hyperion Optics offers a range of laser, flat, metal substrate, focusing, or specialty Optical Mirrors in a multitude of reflective coating options, including Protected Aluminum, Enhanced Aluminum, Protected Silver, Protected Gold, or Dielectric. Choosing the proper reflective coating option ensures high reflectivity of the needed wavelength or wavelength range. Optical Mirrors designed for laser applications are optimized for the given laser wavelength. Additionally, Optical Mirrors designed for lasers feature damage thresholds that are suitable for the designated laser. Metal substrate Optical Mirrors are ideal for applications requiring a constant coefficient of thermal expansion between the Optical Mirror and the mount. Optical Mirrors with a concave surface are ideal for light focusing applications.
Hot Mirror Coating
Heat mirrors and cold mirrors are special bandpass filters that can reflect infrared light and ultraviolet light and only allow visible light to pass through. These optical mirrors, also known as heat-absorbing filters, also known as IR cut filters. Hot mirror will be a large number of heat generated near-infrared light isolated optical path to protect the heat-sensitive devices, where the need for high light intensity and need to be separated from the heat applications can be.
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Concave Mirror for Sale
The concave mirror is the reflection imaging, it is not the light through, but the reflection back to the imaging instrument, the light observes the reflection law. A concave mirror is a spherical mirror which has no chromatic aberration because there is no refraction but still has a spherical aberration. If a mirror without spherical aberration is required, a parabolic / ellipsoidal / hyperboloid mirror can be selected.
Concave mirrors can be used to create images of light sources. Concave mirrors can be tricky to use as the object and image will now exist in the same space. However concave mirrors have one incredible characteristic in that the image location and quality is completely independent of the wavelength and so does not create chromatic aberration unlike equivalent lens optics. This allows the design of very wide spectral range instruments and does allow a system that will work in the IR to be aligned using visible light.
Concave mirrors are typically used in reflecting telescope, electron microscopes and a range of scientific instrumentation applications where there is a requirement to image distant objects.
Our range of quality concave mirrors are coated for use in the visible and near infra-red regions. We can also strip the aluminium coating from our stock concave optical mirrors and coat with a desired coating, i.e. Protected Gold or UV aluminium. This can be done at short notice to create your bespoke custom concave mirror. This can be very helpful with development work.
Hyp design is a leading optics supplier of photonics products including optical components, lens systems and opto-mechanical assemblies in UV, Visible,NIR, SWIR applications. Our clients spanning across defense, security, bioengineering, pharmaceutical, institutional, industrial and research industries worldwide.
This product is polished spherical lenses made by optical glass fused silica, sapphire or other optical materials which have relatively high transmission rate for a diode with an anti-reflection coating. Widely used for coupling light in and out of fibers. It has the advantage of easy for fabrication, light weight which can be considered as the ideal components for optical communication applications.
Although due to the spherical aberration which leads to lower coupling efficiency, its unique easy-packaging attribute guaranteed ball lenses are suitable for series production for optical communication applications with no doubts, especially compared to aspheric lenses.
Balllensspecscommercial gradefactory standardprecision grade
Materialsbk7 or equivalent, sapphire, quartz, fused silica
Diameter± 10µm± 5µm± 2.5µm
Figure (sphericity)5 lambda(@632.8nm)3lambda (@632.8nm1lambda (@632.8nm
Focal length tolerance (%)±5%±3%±0.2%
Cosmetic(mil-c-13830a)80-5040-2010-5
Http://www.Hypoptics.Com/components/spherical-lenses/ball-half-ball-lenses.Html
Achromatic cylindrical lenses are ideal for eliminating spherical and chromatic aberration at the image plane, for example using monochromatic light source, achromatic cylindrical lenses can form a 50-90% smaller spot compared to singlet.
For most severe laser or imaging applications which involve cylindrical components, such as anamorphic projection, anamorphic photography, and achromatic cylindrical lenses are introduced. Hyperion optics can manufacture based on custom design doublet or triplet achromatic cylindrical cemented lenses by using centering alignment device with uv curing unit to process precision bonding and testing at the same time. Every singlet is fully inspected before bonding.
Achromaticcylindrical lenses, commercial grade, factory standard, precision grade
Size tolerance length/width(mm), +0/-0.30, +0/-0.25, +0/-0.25
Diameter (mm), +0/-0.15, +0/-0.10, ±0.025
Wedge (along axis), 5 mrad, 3 mrad, 1 mrad
Focal length tolerance (%), ±2%, ±2%, ±1%
Cosmetic(mil-c-13830a), 80-50, 60-40, 10-5
Irregularity (lambda , 632.8nm), 1 l, 1/2 l, 1/10 l
Centration (arc min)
Singlet lens is a lens consisting of a pure single element, which can be considered as the fundamental element of developing optical systems. Based on optical engineersâ?? design, multiple singlet lenses might be utilized within an optical system with other optics.
As the basic optical element, singlet lenses are commonly used in engineersâ?? design, and further assembly works for a variety of applications such as imaging collimating. At hyperion optics, our manufacturing capability covers plano concave/convex, bi-concave, bi-convex, positive and negative meniscus, ranged from many variations of optical glass and fused silica and even crystal. With our reliable coating technique, ar or v-coatings can be applied to reach expectation. Special treatment i.E. Edge blackening / special packaging / labeling also available upon request.
, commercial grade, factory standard, precision grade
Diameter tolerance(mm), 0.05, 0.03, 0.0125
Center thickness(mm), 0.01, 0.03, 0.025
Radius (%), 1%, 0.5%, 0.3%
Focal length tolerance (%), 3%, 1%, 0.5%
Cosmetic(mil-c-13830a), 100-80, 40-20, 10-5
Figure tolerance in î»(pow/irreg), 3 - 1, 2 - 1/4, 1 - 1/10
Centration (arc min), 6
With the rapid growing market of consumer electronics and mobile phones, miniature cameras performance is becoming more challenging compared to years ago. However, manufacturing cost, packaging, imaging quality impose unique challenges for optical designers.
At hyperion optics, we have been continuously providing the most precision micro and micro-miniature optical components manufacturing service as well as optical design and assembly for sophisticated micro imaging devices, for scientific, commercial, medical and sensory technology markets. We are equipped to meet the most challenging specifications and tolerances.
At hyperion optics, with decades fabrication experiences, we have been providing our customer a vast number of achromatic lenses for their applications in different precision grades, please check ourtest plate radius available online for download to save your cost on custom achromatic doublet lens optical design. Particularly for cost-sensitive design, our series production capability always ensures a satisfying pricing solution.
As optical designers widely use doublets which contribute latitude to eliminate chromatic and spherical aberrations more thoroughly. We also provide excellent suggestions for glass material selection in individual design as we distinguish the importance of refractive index precision in material selection stage despite the design data in software.
Commercial gradefactory standardprecision grade
Diameter tolerance(mm)±0.05±0.03±0.0125
Center thickness(mm)±0.01±0.03±0.025
Radius (%)±1%±0.5%±0.3%
Focal length tolerance (%)±3%±1%±0.5%
Cosmetic(mil-c-13830a)100-8040-2010-5
Figure tolerance in î»(pow/irreg)3 - 12 - 1/41 - 1/10
Centration (arc min)6
