This broadband anti-reflective (AR) coating is particularly designed for the ultra-violet (UV) region. It provides a low level of reflectance less than 0.5% average from 275-425nm. Standard & custom coatings are available for refractive indices of 1.46-1.90.

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The arm of your microscope connects each of the different components. It attaches the bottom of your nose piece to the ocular lens or eyepiece. It is also important to the structure of your microscope. If you need to move your microscope to a different location, you should hold it by the arm.

Finally, you have the base of your microscope! This is necessary to support the weight of your microscope and allows it to stay firmly in place. It is the bottom part of your microscope.

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One of the earliest microscopes was made by Zacharias Janssen around 1600. Microscopes have been around for centuries. Still, many people don’t know how they work or how to use them. Learning more about the different parts of the microscope can help you learn about the function of each microscope part. Do you want to learn more about the different types of microscopes and each of the microscope parts you need to know about? Keep reading this guide for everything you need to know about your microscope options.

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When you are looking at labeled microscope parts, one of the most important parts of the microscope is the eyepiece. This is also known as the ocular lens of a microscope and is used to magnify the image of the specimen you are looking at in your microscope. Depending on the type of microscope you have, the magnification of the eyepiece will differ. Typical school microscopes will usually have an ocular lens with 10x magnification. Your eyepiece lens magnifies the real intermediate image of your specimen.

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To get the most accurate images from your microscope, it is important that you can control the level of light. Even bulbs with the lowest voltage may put too much light on your specimen! To control this, your microscope has a part called the diaphragm or the iris. This allows you to choose how much light passes through to the slide on the stage. The diaphragm of your microscope is typically found below the stage and can be controlled by a small dial. This way, you can adjust the transparency and contrast of your images.

The next part of your microscope is the eyepiece tube. Often referred to as a body tube, this is what holds the ocular lens in place.

This Long Wave Infrared (LWIR) Anti-Reflective (AR) coating provides a low level of reflectance for the far-infrared spectrum (8µm to 12µm). Band averaged reflectance is less than 1.0% at normal incidence.

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Another vital part of your microscope is the stage. This is where you place the specimen that you are researching with your microscope! It allows you to easily observe what you are looking at and will keep your specimen in place. Microscopes also have stage clips. These stage clips hold your specimen slides in place on the stage and will keep them steady while you are looking through the microscope. It allows for the clearest imaging possible from your microscope.

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This narrow band anti-reflective (AR) is an excellent coating for targeting a single wavelength or very narrow band of wavelengths. Standard < 0.25% and high performance < 0.05% reflectivity specifications are available.

The first group is made up of AR coatings that target one or more broad wavelength bands. Our BARC coatings are examples of this group.

Microscopes play an essential role in learning more about the world around you. Learning more about each of the parts of the microscope can help you understand how to use one properly! If you want to learn more about science microscopes and how to use them, Nuhsbaum Microscopy & Digital Imaging Solutions can help! We offer top microscopy products and imaging equipment to help you reach your research goals. Contact us today to learn more about the microscopes we offer or for all of your other microscopy needs and questions.

This high efficiency broadband anti-reflective (AR) coating reflects less than 0.5% average from 425-675nm. Higher performance specifications are also available. Standard & custom coatings are available for refractive indices of 1.46-1.90.

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These Anti-Reflective (AR) coatings are all dielectric, single or multi-layers, and are designed for low reflectance and high transmittance in the UV, visible, and near IR spectral bands. AR coatings meet the requirements of MIL-C-675C, MIL-C-14806A, and MIL-C-48497A. AR Coatings are often crucial components in optical systems with multiple lenses or other optics where the maximum possible light energy is needed. AR coatings help to produce brighter images while reducing the intensity of ghost images which may otherwise be produced in optical systems having multiple reflecting surfaces.

Because microscopes allow you to see such tiny specimens, it is important that you have enough lighting to see each of the tiny parts of the specimen that you are looking at. The microscope illuminator is a part that allows you to light the stage and the specimen. Sometimes, microscopes use mirrors rather than bulbs to light up the specimen. Mirrors will reflect light from surrounding sources, like sunlight or the lights in the room that you are in.

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This narrow band anti-reflective (AR) is an excellent coating for targeting a single wavelength or very narrow band of wavelengths at or near 1550nm. Standard < 0.25% and high performance < 0.05% reflectivity specifications are available.

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This Mid Wave Infrared (MWIR) Anti-Reflective (AR) coating provides a low level of reflectance for the mid-infrared spectrum (3000nm to 5000nm). Band averaged reflectance is less than 1.0% at normal incidence.

To keep your objective lenses in place and to allow for easy rotation, your microscope has a nosepiece. This is sometimes called a revolving turret and allows you to easily choose which objective lens you want to use on your microscope.

There are two different types of focus that you need in a microscope. Using both of these together will allow you to get clear, crisp images of your specimen, no matter their size. First, you will use the coarse focus of your microscope. This brings the stage closer to your eyepiece to allow you to focus on the specimen. Then, you will use the fine focus. This is essential if you want to see more details of your specimen and if you want to get a clear image. When using the fine focus, it moves the stage in much smaller increments.

Often, our customers need a custom Anti-Reflective (AR) coating that is tailored to meet their specific requirements. The ZC&R Coatings for Optics division of Abrisa Technologies has developed thousands of Anti-Reflective (AR) coatings to fulfill such needs. If you have a custom Anti-Reflective (AR) requirement just let us know, and we will be happy to submit a design curve for your review.

When you use a microscope, you need to make sure your light source is focused on the specimen. The condenser is a part of your microscope that uses a collection of optical lenses to focus light from the source. Then, you can project the light more accurately onto the specimen!

When you use a microscope, the level of magnification that you need will differ. Luckily, most microscopes come with a set of objective lenses. You can rotate these lenses to adjust the magnification of your microscope as necessary. The most common magnification for objective lenses is 40x, 10x, and 40x. However, this magnification is combined with the magnification of your eyepiece, which is typically 10x. This means that your total magnification will be much more! If you purchase an even more advanced or professional-quality microscope, you may have objective lenses with a magnification of up to 100x power. This is the minimum amount of magnification you need to study cell structures.

This broadband anti-reflective (AR) coating is particularly designed for telecommunication applications. It provides a low level of reflectance to less than 0.25% average from 1450-1650nm. Standard & custom coatings are available for refractive indices of 1.46-1.90.

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This broadband anti-reflective (AR) coating provides a low level of reflectance across a wide spectrum from 400-1100nm, reflecting less than 1.0% average. Standard and custom coatings are available for refractive indices of 1.46 to 1.90.