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High-quality optical mirrors and prisms are vital for astronomical research, enabling the exploration of distant galaxies and celestial phenomena.

The SZX7 stereomicroscope is a cost-efficient system designed for comfort and high-quality life science imaging. Its high color fidelity optics and Galilean optical system contribute to its excellent imaging performance. Offering a wide 7:1 zoom ratio, it achieves a magnification range of 8x–56x with a 1X objective, and up to 112x with a 2X objective. Reflected/transmitted LED illumination is integrated into its slim, open base, offering easy specimen access.

Olympus stereo microscopes offer three dimensional imaging with a wide zoom ratio and high numerical aperture (NA). Excellent image quality with our advanced optics, improved functionality, and various ergonomic accessories make Olympus stereo microscopes easier and more comfortable to use in life sciences and biology when performing sample selection, dissection, and manipulation.

UQG Optics has a long-standing history of supplying universities and research institutions with high-grade precision optics. Their components are used not only in fundamental research but also in applied research within fields such as medical and pharmaceutical sciences, where precision is critical.

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Using a stereo microscope is relatively simple. The specimen you are viewing is placed on the stage plate—if it is a live specimen, a glass petri dish can be used to contain it. To view the specimen, switch on the light source on the stereo microscope and adjust the eyepieces so that you can comfortably look through the microscope. You can also observe in high magnification by adjusting the zoom, without changing the objective of each magnification such as on an upright/inverted microscope.

The company’s commitment to customisation is another key factor in its success. Researchers often require optical components with unique specification and UQG provides the flexibility to meet these demands. Their technical team offers support and advice on material selection and optical coatings, ensuring researchers can choose the most suitable components for their projects.

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A stereo microscope is used for low-magnification applications, allowing high-quality, 3D observation of subjects that are normally visible to the naked eye. In life science stereo microscope applications, this could involve the observation of insects or plant life. Also, it is often referred to as a dissecting microscope, due to its usefulness in biological dissection work.

UQG Optics addresses this challenge by offering a variety of standard and customised products that balance performance with cost-efficiency.

Precision optics are critical in furthering scientific discoveries by bridging the gap between fundamental research and novel applications. High-quality optical components provide the accuracy and reliability required for significant discoveries in physics, biology and engineering. Precision optics has evolved from simple observations to intricate light manipulations, making it an indispensable tool in academic study.

Precision optics are not just tools for discovery; they are the foundation for innovation. In many fields, breakthroughs in optical technology have paved the way for new advancements in academic research.

Now substitute the di and do values into the lens equation 1 / f = 1 / do + 1 / di to solve for the focal length. 1 / f = ...

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Aug 30, 2022 — They function using an electrical current in a plasma tube that has carbon dioxide gas. The electron collisions excite these gas molecules that ...

Optical components are at the heart of many research disciplines, including physics, chemistry, biology and engineering. UQG Optics, a leading supplier of precision optics to universities and research laboratories worldwide, supports a diverse range of applications:

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The LED illumination base enables you to optimize your observation by adjusting the contrast level and the angle and size of the light/shadow (oblique) independently. Find out more in the app note.

Achieve consistent, accurate results with this range of zoom stereomicroscopes. Optimized for comfortable routine research, each system has strain-reducing eyepieces, a universal LED stand offering easy access to the sample, and a Greenough optical system delivering excellent image flatness. The magnification ranges are 6.7x–45x for the SZ61 system and 8x–40x for the SZ51 system (both with 10X eyepieces).

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UQG Optics offers a wide range of optical components designed to support this spectrum of research. Our products, such as UV coverslips, fused quartz microscope slides and Schott longpass filters, are tailored for the specific needs of academic institutions.

Each component can be customised to meet the exacting standards required by researchers, ensuring that accuracy and precision are never compromised.

Posted by Kelvin Biggs, Managing Director  | 11th September 2024  | Optical Products, Optical Technology

While precision optics offer immense value to academic research, there are challenges associated with their use. One of the primary considerations is the cost of high-quality optics. For many research projects, budgets are tight and the need for reliable, yet affordable components is paramount.

Another challenge is ensuring that the chosen optical components meet the specific requirements of the research. Factors such as the wavelength of light, material properties and coating options must be carefully considered to ensure that the component performs optimally in its intended application.

Image macro views of whole organisms to micro views of individual cell structures using the SZX16 research stereomicroscope. Its wide zoom ratio (16.4:1) enables magnifications of 7x–115x with a 1X objective and up to 230x with a 2X objective. Clearly observe fine details owing to the apochromatic optics, reducing chromatic blur for the entire magnification range, and its 0.3 numerical aperture (NA), providing a high 900 line pairs per mm resolution.

Aspheric lenses maximize the quality of vision/aberrations/magnification of a lens. This is done by altering the curvature of just the central ...

For example, in nanotechnology and quantum mechanics, the precise control of light is essential for manipulating particles at the atomic level. Similarly, in biomedical imaging, optics have revolutionised the ability to study tissues and cells in greater detail, leading to innovations in diagnostics and treatment.

As optical technology continues to evolve, so too will the research it enables, paving the way for future innovations and discoveries in the world of science.

Furthermore, the LED transmitted light illumination base enables you to easily switch observation methods and flexibly adjust the contrast level by changing optical cartridges.

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20241024 — HELIX · RAPTR-1 2-16×50 SFP · APR-1C 2-16×50 MOA SFP · APR-1C 2-16×50 MRAD SFP · APR-1C 4-16 FFP MRAD FOV · APR-1C 4-16 FFP MOA FOV · APR-1C 6- ...

Nov 25, 2022 — The design of a Fresnel Lens comprises a flat surface with interspaced, concentric 'steps', which many have compared to a beehive form. Here, ...

This downloadable infographic takes a closer look at the ergonomic designs within the Olympus collection of stereo microscopes.

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Jul 7, 2015 — ... thickness of a board in quarters. For example, when referring to a 1″ thick rough sawn board we say 4/4 (4 quarter), a 2″ board is 8/4, etc.

Olympus offers a variety of stereo microscope models ideal for both routine and advanced research applications, from routine standard models with a wide zoom ratio and natural view to advanced models with an ultra-wide zoom ratio and high resolution, alongside advanced fluorescence imaging capabilities.

by B Aldalali · 2011 · Cited by 2 — The micro plenoptic camera is based on lightfield photography where the camera captures the 4-dimensional lightfield and images it onto a 2-dimensional CCD ...

Optical tables should have a high natural frequency (preferably above 90 Hz) to avoid coincidence with prominent low frequency sinusoidal building vibrations ...

Optical mirrors, lenses and windows are key components in laser systems, which are used in cutting-edge research, including quantum computing and materials processing.

Doctor Recommended for Anti Reflective Lenses and Coating, 2oz Crizal Spray (2 Bottles) w/Crizal Microfiber Cloth and Crizal Pouch, 1pk

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The SZX10 stereomicroscope is a cost-effective system for routine research. It provides darkfield and polarization imaging, up to a 0.2 NA, 10:1 zoom ratio, and a Galilean optical system to help minimize distortion. Obtain a natural view your specimen with its excellent stereo and color representation. The wide zoom ratio provides a magnification range of 6.2x–63x with a 1X objective, and up to 123x magnification with a 2X objective.

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Contact us today to discuss how we can meet your optical component requirements and contribute to the success of your projects.

A stereo microscope is different from a compound microscope because a stereo microscope uses two optical paths instead of just one. The two eyepieces in a stereo microscope transfer an image of the given sample from two different angles, resulting in a three-dimensional view and enabling you to perceive the depth and dimensions of thick specimens, like eggs or embryos.

Filters and prisms enable researchers to analyse the light spectrum, making it possible to study chemical compositions and molecular structures in fields such as chemistry and materials science.

Precision optics refers to the carefully built components that control, alter, or measure light with exceptional precision. Even minor optical flaws in academic research can result in data inaccuracies, lowering overall study quality. With an increasing demand for advanced optical systems, providing the greatest level of precision in lenses, prisms, filters and windows is crucial to the success.

Advanced optical lenses, slides and filters are crucial for microscopy techniques, allowing researchers to observe biological samples with unparalleled clarity.

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