Strict quality control is carried out using high-precision testing equipment such as interferometers and three-coordinate measuring machines to ensure that each off-axis parabolic mirror meets the design requirements and quality standards.

Off-Axis Parabolic Mirrors (OAP) are specialized optical components characterized by a parabolic surface with an optical axis that deviates from the parabola’s central axis. This design enables OAP mirrors to reflect light to a focal point away from the optical axis, effectively reducing or eliminating central aperture effects. By avoiding occlusion and minimizing diffraction, OAP mirrors are highly valued in applications requiring precise, aberration-free reflection. They are widely utilized in various high-precision optical systems, including astronomy, laser systems, and infrared optics.

As a key component in high-precision optical systems, off-axis parabolic mirrors are widely used in laser systems, astronomical telescopes, spectrometers and other fields. Its main advantage is that it can efficiently reflect and focus light while eliminating aberrations and diffraction effects. Although it is difficult to process and has high costs, its irreplaceable performance makes it occupy an important position in high-precision optical applications.

H.E. Irakli Gharibashvili, Georgia’s Prime Minister, commented, “today we are witnessing the result of a successful innovation reform. Georgian startup Pulsar AI crossed the borders and oceans, fulfilling every startup’s dream! Our government’s vision of building a knowledge-based and innovation-driven economy was institutionalized in 2014 by creating Georgia’s Innovation and Technology Agency (GITA). We are extremely happy that in this short period of time, a technology ecosystem has rapidly emerged. I would like to congratulate the whole Pulsar AI team for their amazing achievement. It is a clear demonstration that Georgia is making excellent progress in creating and nurturing globally scalable startups.”

Experience the difference with Yudi Optics’ off-axis parabolic mirrors, made with the highest standards of quality for outstanding optical performance. Leverage our advanced technology for precise focusing and imaging in your optical systems. Invest in our mirrors for exceptional value and reliability.

Yudi is equipped with state-of-the-art ultra-precision machining technology and equipment, enabling the completion of the most complex geometric shapes with nanometer-level surface accuracy and minimal surface shape error. We utilize diamond tools and cutting-edge machining techniques to process high-hardness substrates such as silicon and silicon carbide. This ensures the dimensional stability and exceptional optical performance of our final products.

This transaction is also historic for the country of Georgia as it represents the first foreign acquisition of a tech company in the country’s history. Pulsar AI was also the first tech company to attract international funding in Georgia and was also among the first to receive support from Georgia’s Innovation and Technology Agency (GITA), part of a Georgian effort to develop the nation’s tech innovation base.

With a commitment to excellence, YUDI stands as a premier precision optic manufacturer in China, offering unmatched expertise in tailor-made precision optic manufacturing and the construction of advanced optical systems.

The main parameters of off-axis parabolic reflectors are: overall dimensions, focal length, off-axis angle, and coating.

Impel is thrilled to announce the acquisition of Pulsar AI, creator of the auto industry’s most advanced conversational AI platform. The acquisition marks a key milestone for Impel and reinforces our commitment to helping dealers deliver more engaging and personalized shopper experiences at every touchpoint. This historic event expands and strengthens the Impel family and organization as Pulsar’s AI technology will be integrated into the Impel platform and all of Pulsar’s employees will become part of Impel’s expanded global Executive Leadership, Product, Operations and R&D organization.

Reduced aberration: Aspheric design reduces the required correction elements in the optical system, thereby reducing the overall weight of the system.

SpinCar

Off-axis parabolic mirrors can efficiently focus and collimate communication beams and reduce diffraction losses. Their efficient beam control capabilities and low aberration characteristics can improve communication distance and signal strength.

We look forward to leveraging the team’s expertise and technology innovations to expand our platform and deliver even greater business results for vehicle dealers of all sizes and types. We are so grateful for this new addition to the Impel Family!

Pulsar官方文档

As a professional optics manufacturer, Yudi Optics not only provides a variety of off-axis parabolic mirrors as standard products but also can customize OAP to meet your specific needs.

ImpelAI

In laser focusing, beam delivery, and laser cavity design, off-axis parabolic mirrors can efficiently focus laser beams onto a target area while reducing beam diffraction and aberrations, thereby achieving high-precision beam control and energy concentration.

Yudi Optics designs and manufactures a wide range of custom OAP mirrors. With an almost unlimited choice of sizes and shapes, we can meet all of our customers’ specific needs. We can also produce mirrors with surface quality superior to commercially available OAPs. If your application requires a higher quality standard, please contact our technical team for a professional solution.

Reduced center occlusion: OAP mirrors avoid center occlusion of the light beam by deviating the optical axis from the center of the parabola. This design makes the optical system more compact and reduces mutual interference between components, which helps to reduce weight.

Off-axis parabolic mirrors can guide light beams to a position that is off the optical axis, which is crucial to reducing distortion in optical systems and improving image quality. In some high-precision optical applications, such as astronomical telescopes and laser beam collimation, off-axis design can effectively avoid the problem of occlusion on the optical axis.

To commemorate the closing of the acquisition, Devin Daly (Impel CEO and Co-Founder), and Britt DeJohn ( Senior Director – Product Operations) recently traveled to Tbilisi, Georgia, the nation’s capital and home to Pulsar AI’s headquarters. After a warm welcome from Dachi Choladze (Pulsar CEO & Co-Founder) and the Pulsar team, both companies discussed business and organizational insights and plans.

During the ceremony and subsequent celebrations, Devin and Britt had ample opportunities to immerse themselves in Georgian history, culture and food, courtesy of the Pulsar AI team!

Audiense

Single reflection surface: OAP mirrors usually only need one reflection surface to complete focusing and reflection tasks, which simplifies system design and reduces the number of components and total weight.

We boast advanced coating technology and can provide a variety of customized coating services to ensure that the mirror has high reflectivity and excellent optical properties to meet multi-band optical applications.

Yudi provides professional off-axis parabolic mirror customization services, which can meet any off-axis angle customization requirements within the range of 10-1,000mm, and the surface accuracy can reach λ/10, λ/20, λ/50 levels.

Pulsargithub

Off-axis parabolic mirrors have high reflection efficiency and precise imaging capabilities in the infrared band. They are used in infrared imaging systems to efficiently reflect and focus infrared light to provide high-resolution thermal imaging.

Since the focus of the off-axis parabolic mirror is located at a position outside the optical axis, it can provide more spatial freedom for system design, allowing more flexible layout of optical components.

Off-axis parabolic mirrors are very suitable for lightweight optical design. The goal of lightweight design is to reduce the weight of optical components while maintaining or improving their optical performance. The following are the advantages of off-axis parabolic mirrors in lightweight design:

In astronomical telescopes, off-axis parabolic mirrors are used to reflect and focus light from distant celestial bodies, reducing the diffraction effect in the telescope, improving the image quality, and providing high-resolution, aberration-free astronomical imaging.