Aspheric Optics: An Overview
Aspheric Optics: An Overview
Many differences exist between brands of contact lenses which impact lens optics. The optics of the contact lens is determined by several factors including lens material1 and design2. Optics is the way in which the refraction of light is managed to maximize vision for the contact lens wearer3. Contact lenses with aspheric optics may provide enhanced vision for many wearers.
What are Aspheric Optics?
Regular spherical contact lenses have an even curvature across the entire lens surface; in contrast, aspheric lenses have varying curvatures across the surface changing from lens center to lens edge. Aspheric lenses are used to minimize optical aberrations within the human eye4. Parts of the eye including the tear film, cornea, and crystalline lens can induce aberrations. Contact lenses deliberately induce a level of aberration in the lens that is inversely equal to the amount of natural spherical aberration inherent in the eye to help give clear, crisp and sharp vision3.
Multifocal Lens Wearers
Lens design and the patient&#;s pupil size are key to multifocal success. The Biofinity Multifocal has a center-distance (D) lens, which transitions through an aspheric intermediate to an outer near zone for the dominant eye. A center-near (N) lens which transitions through an aspheric intermediate to a spherical peripheral distance zone, is placed on the nondominant eye7. When compared with monovision, multifocal contact lens correction provides great vision without compromising depth perception, with continuous adaptation over the first 15 days of wear8.
Computer Users
Biofinity Energys® and MyDay Energys® are designed for digital device users. DigitalBoost&#; technology is an innovative single vision aspheric lens design that delivers a +0.3D digital boost, which helps reduce eye tiredness associated with digital eye strain. Study data demonstrates that devices users have a smaller change in accommodative micro-fluctuations (AMF) when wearing this DigitalBoost&#; technology, suggesting reduced ciliary muscle stress when reading on a smartphone or other devices at a close distance9.
Which CooperVision® Lenses are Available with Aspheric Optics?
The CooperVision® portfolio of monthly, bi-weekly, and daily lenses are designed with aspheric optics. The Aberration Neutralizing System&#; utilizes aspheric optics to neutralize the aberrations from the eye in the Biofinity®, Avaira Vitality&#; and MyDay® families. clariti® 1 day contact lenses also offer an aspheric optical design.
Biofinity® & Biofinity® XR
The Biofinity® family of lenses are monthly replacement lenses designed with aspheric optics and combined with Aquaform® Technology to gives incredible end of day comfort for your patients. Biofinity® is the most prescribed monthly replacement on the market10 and will fit almost every patient with over 240,000 unique prescriptions11,12.
Avaira Vitality&#;
Avaira Vitality&#; lenses are highly breathable, bi-weekly replacement lenses designed with the same Aberration Neutralizing System&#; as the Biofinity® family. The technology of a Avaira Vitality&#; retains the lens surface moist all day, but also blocks transmission of 90% of UVA and 99% of UVB light*.
MyDay®
MyDay® daily disposable are designed with the same Aberration Neutralizing System&#; to provide optimal vision combined with UV blocking* and incredible comfort all day long. The MyDay® daily disposable is available in sphere, toric, and multifocal options.
clariti® 1 day
clariti® 1 day contact lenses also offer aspheric optics and provide silicone hydrogel at a comparable price to some hydrogel lenses13&#;. In addition, clariti® 1 day contact lenses feature high water content (56%), UVA and UVB blocker*, and a low modulus of 0.5 MPa, comparable with other hydrogel lenses. The clariti family also offers sphere, toric and multifocal options and is an ideal entry-level contact lens for new wearers14.
Contact lenses with aspherical optics can be extremely beneficial for subsets of your patients. By recommending a CooperVision® lens, you can be confident you are offering options in support of visual acuity, lens comfort, and eye health &#;.
Additional resources:
Consumers Guide To Buying Glasses 2024 - OpticianWorks
Goto RuiQi to know more.
What is Aspheric Lens? - Nazetaro's Room
Lenses are used when magnifying tiny or distant objects to help us see more detail. Also, a camera lens is used to make images of objects either on photographic films or on other media. Traditional simple lenses are spherical lenses, one or both sides are concave/convex or one of the surface is flat, and their shapes are often made by grinding and polishing.
The larger diameter lens will allow more light to be gathered. However, a larger diameter lens tends to be thicker than a smaller diameter lens, making it more likely to create aberration.
Higher zoom lens is used when you shoot something small or from far distance. As you zoom to higher magnifications, the image dims since the amount of light entering lens decreases the more you zoom in. The same applies in the case when fast shutter speed is needed, such as photographing high-pace sport. The faster the shutter speed, the shorter the time image sensor is exposed to light, and the darker the resulting photograph.
For lenses made with spherical surfaces, rays which are parallel to the optic axis but at different distances from the optic axis fail to converge to the same point. If the center of the image stay in focus an bright, the edges of the field apprear blurry and dimmeter.
Spherical aberration is typically minimized by combination of multiple lenses into an optical assembly. Also, by using fewer aspheric lenses instead of a greater number of conventional spherical lenses can reduce or eliminate the aberration.
Aspheric lens has a non-spherical lens surface. The main advantage of aspheric lenses is its ability to correct for spherical aberration. Aspheric lenses allow optical designers to correct aberrations using fewer elements than conventional spherical optics because the former gives them more aberration correction than multiple surfaces of the latter. Given that, smaller amount of aspheric lenses can be substituted for many spherical lenses to achieve similar or better optical results, while reducing system size, simplifying the assembly process, and yielding imaging lenses that ultimately cost less and outperform assemblies made of traditional spherical components.
However, aspheric lenses are not free from problems. Aspheric lenses tends to be more difficult to be manufactured by conventional fabrication prosess such as grinding and polishing, since aspheric lens elements are more complex than spherical ones. Consequently, aspheric lenses had not been widely applied.
As an alternative approach, aspheric lenses can be manufactured by glass molding process: a preform or near-net-shape glass is introduced to heated molds within a molding machine, pressed by two mold halves, then the formed lens is cooled down and released from the molds. Glass molding is as an effective approach to produce precision optical elements with complex shapes at high production efficiency. Once the mold is finished, the incremental cost for each lens is lower than that of standard manufacturing techniques for aspheres, making this technique a great option for high volume production.
Glass molding had an issue that arise from the very high-temperature for softening of a glass, which can deteriorate the molding easily and shorten the service life of molds. Requiring high temperature also means it takes time to heat and cool down the mold. Thus, the development of low softening temperature optical glasses for molding had been expected for a long time.
Glass material for molding has additional requirements, such as transparency, excellence in scratch resistance, stability in optical properties in temperature changes, the properties include refractive index, no crystalization or volatile substances occurs while forming, not containing a material which can react with molds, and are free from pollutants, such as lead and arsenic compounds. Glass lens has advantages over the plastic lens on the aspects as shown above, as well as hardness, refractive index, light permeability, stability to environmetal changes in terms of temperature and humidity, although plascic lens can be mass-produced at a low cost. Furthermore, for the convenience of users, providing a wide variety of glass materials for molding is important to meet customers&#; needs.
Considering these requirements, SUMITA successfully developed a new glass material for molding, &#;K-PG325 Super Vidron&#; with low softening temperature at 325 &#; (617 &#;) in . Since then, SUMITA has been developed a wide variety of glass materials for molding.
Also, a preform has improved. Conventionally, a lens preform, shaped in ball, disc or near-net, generated out of raw glass by grinding and polishing processes. A gob preform, a firepolished preform produced directly from the melt without any additional surface processing, has developed and commercialized. For many years, SUMITA has been a reliable supplier for precision gob preforms made of glass materials for molding.
Contact us to discuss your requirements of Aspheric Cylindrical Lens. Our experienced sales team can help you identify the options that best suit your needs.
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