Objective lensesfunction

Unsure of what microscope objective is right for you? Use our guide on selecting the right microscope objective to weigh your options.

SKU: VUSC-RLP006 VUSC-GLP006

This super-corrected apochromat objective corrects a broad range of color aberrations to provide images that capture fluorescence in the proper location. Delivering a high degree of correction for lateral and axial chromatic aberration in 2D and 3D images, it offers reliability and accuracy for colocalization analysis.

A positioning stage is a precision mechanical device engineered to move and position objects with high accuracy along one or more axes.

Offering our highest numerical aperture values, these apochromat objectives are optimized for high-contrast TIRF and super resolution imaging. Achieve wide flatness with the UPLAPO-HR objectives’ high NA, enabling  real-time super resolution imaging of live cells and micro-organelles.

Objective lensesfor microscope

This semi-apochromat objective series provides flat images and high transmission up to the near-infrared region of the spectrum. Acquiring sharp, clear images without color shift, they offer the desired quality and performance for fluorescence, brightfield, and Nomarksi DIC observations.

Availability: In Stock In Stock

Microscope objectives come in a range of designs, including apochromat, semi-apochromat, and achromat, among others. Our expansive collection of microscope objectives suits a wide variety of life science applications and observation methods. Explore our selection below to find a microscope objective that meets your needs. You can also use our Objective Finder tool to compare options and locate the ideal microscope objective for your application.

The ocular lens is located at the top of the eyepiece tube where you position your eye during observation, while the objective lens is located closer to the sample. The ocular lens generally has a low magnification but works in combination with the objective lens to achieve greater magnification power. It magnifies the magnified image already captured by the objective lens. While the ocular lens focuses purely on magnification, the objective lens performs other functions, such as controlling the overall quality and clarity of the microscope image.

These super apochromat objectives provide spherical and chromatic aberration compensation and high transmission from the visible to the near infrared. Using silicone oil or water immersion media, which have refractive indexes closely matching that of live cells, they achieve high-resolution imaging deep in living tissue.

To clean a microscope objective lens, first remove the objective lens and place it on a flat surface with the front lens facing up. Use a blower to remove any particles without touching the lens. Then fold a piece of lens paper into a narrow triangular shape. Moisten the pointed end of the paper with small amount of lens cleaner and place it on the lens. Wipe the lens in a spiral cleaning motion starting from the lens’ center to the edge. Check your work for any remaining residue with an eyepiece or loupe. If needed, repeat this wiping process with a new lens paper until the lens is clean. Important: never wipe a dry lens, and avoid using abrasive or lint cloths and facial or lab tissues. Doing so can scratch the lens surface. Find more tips on objective lens cleaning in our blog post, 6 Tips to Properly Clean Immersion Oil off Your Objectives.

High powerobjectivelens

For clinical research requiring polarized light microscopy and pathology training, these achromat objectives enable transmitted polarized light observation at an affordable cost.

Designed for clinical research and routine examination in labs using phase contrast illumination, these achromat objectives offer excellent field flatness.

When comparing 2.0 and 3.0 there are few major differences. First the transfer rates. USB 2.0 offers transfer rates of 480 Mbps and USB 3.0 offers transfer rates of 4.8 Gbps - that's 10 times faster.

Objectivelens magnification

These semi-apochromat long-working distance water-dipping objectives for electrophysiology deliver flat images for DIC and fluorescence imaging from the visible range to the near-infrared. Their high NA and low magnification enables bright, precise macro/micro fluorescence imaging for samples such as brain tissue.

These extended apochromat objectives offer high NA, wide homogenous image flatness, 400 nm to 1000 nm chromatic aberration compensation, and the ability to observe phase contrast. Use them to observe transparent and colorless specimens such as live cells, biological tissues, and microorganisms.

These extended apochromat objectives offers a high numerical aperture (NA), wide homogenous image flatness, and 400 nm to 1000 nm chromatic aberration compensation. They enable high-resolution, bright image capture for a range of applications, including brightfield, fluorescence, and confocal super resolution microscopy.

For relief contrast observation of living cells, including oocytes, in plastic vessels using transmitted light, these achromat objectives provide excellent field flatness.

For phase contrast observation of cell cultures, these universal semi-apochromat objectives provide long working distances and flat images with high transmission up to the near-infrared region. They help you achieve clear images of culture specimens regardless of the thickness and material of the vessel.

Home / Product Sensor Model / Sony IMX178. Sony IMX178. Showing all 30 results. Sort by popularity, Sort by latest, Sort by price: low to high ...

Objective lensesmicroscope function

Designed for low-magnification, macro fluorescence observation, this semi-apochromat objective offers a long working distance, a high NA, and high transmission of 340 nm wavelength light.

Many microscopes have several objective lenses that you can rotate the nosepiece to view the specimen at varying magnification powers. Usually, you will find multiple objective lenses on a microscope, consisting of 1.25X to 150X.

Ocular lens

Types ofobjective lenses

Enabling tissue culture observation through bottles and dishes, these universal semi-apochromat objectives feature a long working distance and high contrast and resolution. Providing flat images and high transmission up to the NIR region, they are well suited for brightfield, DIC, and fluorescence observation.

Relax & Focus | Lavender Essential Oil | Aromatherapy Set. $13.00. Enjoy the benefits of aromatherapy while taking a quick shower! Latika's shower steamers ...

For use without a coverslip or cover glass, these objectives prevent image deterioration even under high magnification, making them well suited for blood smear specimens. They also feature extended flatness and high chromatic aberration correction.

Optimized for multiphoton excitation imaging, these objectives achieve high-resolution 3D imaging through fluorescence detection at a focal point of a large field of view. They enable high-precision imaging of biological specimens to a depth of up to 8 mm for in vivo and transparent samples.

Fount of All Knowledge (slang for a know-it-all). Copyright 1988-2018 ... FOV · FÖV · FOV/AT · FOVA · FOVAD · FOVC · FOVCF · FOVEA · FOVGS · FOVI · FOVICKS ...

These semi-apochromat objectives enable phase contrast observation while providing a high level of resolution, contrast, and flatness for unstained specimens.

AmScope exclusive ALL-IN-ONE 3D DIGITAL INSPECTION MICROSCOPE. View different angles and perspectives of objects with ease.

Define Nd:YAG laser: Nd:YAG laser refers to a solid-state laser that utilizes neodymium-doped yttrium aluminum garnet (Nd:Y3Al5O12) as the gain medium...

ElectroVerre is Montreal's complete solution provider for Electrochromic Smart Film and glass. Since 2008, we've proudly served the Greater Montreal area ...

Scanningobjectivelens

Parties, you can decorate anywhere you want! Colour: Random. Material: LED electronic components. Type: LED candles. Products: LED candle lamp. Product use.

Objective lenses are responsible for primary image formation, determining the quality of the image produced and controlling the total magnification and resolution. They can vary greatly in design and quality.

These apochromat objectives are dedicated to Fura-2 imaging that features high transmission of 340 nm wavelength light, which works well for calcium imaging with Fura-2 fluorescent dye. They perform well for fluorescence imaging through UV excitation.

Glass Machining of Small Diameter Optical Windows. Valley Design provides precision glass machining and manufacturing of flat plano/plano optical and technical ...

Designed for phase contrast observation of cell cultures in transmitted light, these achromat objectives combine field flatness and easy focusing with cost efficiency. They are well suited for routine microscopy demands.

These semi-apochromat and achromat objectives are designed for integrated phase contrast observation of cell cultures. They are used in combination with a pre-centered phase contrast slider (CKX3-SLP), eliminating centering adjustments when changing the objective magnification.

Amscope microscopes come with multiple magnifications to aid you in finding the proper magnification for viewing each specimen.

A laser beam might be collimated, might have a high enough divergence so as not to be considered (well?) collimated. We'll argue about this ...

The most important factor in ensuring successful microscopic imaging is choosing the appropriate optics and camera for your application that gives you more data and higher image quality. When selecting a microscope camera, it is best to base your decision on the most important requirements for your microscopic observation.

Magnification is the ability of your microscope to make small objects seem larger. As the magnification increases the area being viewed will be decrease is size but the detail of the area being viewed will improve.

For high-performance macro-observation, these apochromat objectives provide sharp, clear, flat images without color shift, achieving high transmission up to the near-infrared region of the spectrum. They perform well for fluorescence, brightfield, and Nomarksi DIC observations.

Designed for clinical research and routine examination work in the laboratory, these achromat objectives provide the level of field flatness required for fluorescence, darkfield, and brightfield observation in transmitted light.

For relief contrast observation of living cells, including oocytes, in plastic vessels, our universal semi-apochromat objectives feature a long working distance. These also provide high image flatness and high transmission up to the near-infrared region.

Optimized for polarized light microscopy, these semi-apochromat objectives provide flat images with high transmission up to the near-infrared region of the spectrum. They are designed to minimize internal strain to meet the requirements of polarization, Nomarski DIC, brightfield, and fluorescence applications.

Jul 10, 2015 — On a 35mm film camera, it turns out that the angle of view afforded by a 50mm lens provides a field of view that is approximate to the field of ...