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Put simply, a fluorescence microscope is any microscope that uses fluorescence to study specimens instead of using regular illumination and magnification methods found in most traditional optical microscopes. Fluorescence microscopes are helpful when scientists need to study complex samples that can't be thoroughly studied under a regular microscope. They also can be used with samples present in such low concentrations that a highly-sensitive microscope is necessary to detect them.

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The C or CS mount to M12 lens adapters are used to mount M12 lenses on a C-mount or CS-mount camera. M12 lenses are cheaper, compacter and have less weight.

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To maximize visual capabilities, everyone can benefit from the digitally surfaced lenses, such as improved visual field, better control of off-axis astigmatism and power error, and reduced magnification differences. Plus, your vision will stay clear no matter which direction you gaze and under any form of lighting. Digital lenses are an ideal option for anyone who wears their glasses outdoors, such as for jogging, nature walks, or light sports. We recommend adding lens treatments to protect your lenses from damage such as scratches.

In many ways, the construction of a fluorescence microscope is similar to its traditional light counterpart. There are two distinct features that set fluorescence microscopes apart: (1) fluorescence microscopes use a very powerful light source and (2) utilize specialized filters, like the excitation filter and the emission filter. The most common light sources that fluorescence microscopes use include xenon arc lamps and mercury-vapor lamps, though some also use supercontinuum sources, LEDs, or lasers. A mercury-vapor lamp tends to burn anywhere from 10 to 100 times brighter than lamps used in traditional microscopes, and it's able to give off wavelengths that range from infrared to ultraviolet. Meanwhile, the excitation and emission filters control the wavelengths of the microscope's light source to observe the fluorophore under inspection.

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Because fluorescence microscopes are unique in the way that they're able to help scientists identify cells and cellular components, they're most beneficial in biology and material science applications. A few specific settings in which fluorescence microscopes are used include:

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Adults and children equally can struggle with their eyeglasses, even if the frames fit well, don’t slide, and have additional lens treatments. Certain angles can still show up blurry or create visual distortions simply because of poor lens design. Eyestrain and poor reaction times can also occur in some patients who wear standard lenses.

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In addition to having a powerful light source, an excitation filter, and an emission filter, a fluorescence microscope also uses a dichroic mirror, an objective lens, and a camera system. The dichroic mirror works as a beam splitter, which means that it quite literally splits the beam of light from the light source in two, placed at a 45-degree angle between the excitation filter and the emission filter. The objective lens simply transmits light from the light source to the sample after it first passes through the dichroic mirror, producing an observable image. The microscope's camera system allows the user to capture high-speed, high-resolution images of the sample, which is especially helpful in classroom and research settings, where further study and observation of the specimen is expected.

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Traditionally, crafting your lenses……relies on a few standard measurements to ensure your frame and lenses are balanced with your eyes. However, since standard lenses use estimated measurements rather than what your actual visual needs are, your vision isn’t fully corrected. Not only can standard lenses lead to poor peripheral vision, but some patients find it hard to focus up close or at a distance. For high definition vision, one must rely on more than just an eye exam or skilled optician.

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In conclusion, the field of fluorescence microscopy is wide, but all fluorescence microscopes have a few things in common: they have a dichroic mirror, excitation, and emission filters, and, most importantly, they rely on fluorescence and phosphorescence to thoroughly observe their samples. Whether you're in the market for a fluorescence microscope or you just enjoy learning new things, we're glad you stopped by.

Digitally surfaced lenses offer what the eye care industry considers “high definition” vision. Unlike standard lenses, digital lenses are designed based on your eyes’ unique shape and how they move. There are additional measurements that include more than just the distance between your eyes and the lenses. The complexity and subtle measurements needed to create digital lenses require computer-controlled surfacing equipment to precisely craft the lenses into the right shape rather than conventional tools. The various edges and grooves subtly etched into your new lenses will result in greater sharpness and flow with how your eyes see the world.

Fluorescence microscopes can be as simple as an epifluorescence microscope or as complex as a confocal microscope. One kind isn't necessarily better than another, and the type that any person needs will depend on the settings and applications that the microscopes will be used for. The six main types of fluorescence microscopes include epifluorescence, LED, upright, inverted, confocal, and widefield. Epifluorescence microscopes, which are the most common, are almost always used in life science applications to study the structure of organic cells, while the more complicated confocal microscopes are often used in industrial settings to inspect things like semiconductors.

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Plus, many progressive lens wearers prefer digital lenses as they can avoid bifocals or lined/split lenses. The design of digital progressive lenses can help you switch between near and far vision based on your lifestyle. Patients consistently share improvements with their visual acuity and enjoy wider zones of view between distance, intermediate, and near vision through their tailor-made, customized digital lenses.

One of the most important parts of fluorescence microscopy is to make sure that the samples studied are fluorescent. Some specimens have an intrinsic fluorescence (autofluorescence), which means that they don't require any outside help to be fluorescent, but many other samples will need to be labeled/tagged/stained as we mentioned above. The fluorescence microscope's application will determine which stain will need to be used if any.

A fluorophore is a fluorescent molecule that absorbs light at a particular wavelength and then re-emits it when the fluorophore is ""excited."" In most laboratory settings, the fluorophore is chemically (or biologically) added to the sample being studied to identify proteins, antibodies, or amino acids, depending on the kind of fluorophore used. After the fluorophore is added, the fluorescence microscope filters will separate the surrounding radiation from the sample's fluorescent light so that the fluorescent light is all that the user sees.

A digital lens takes these slight changes into consideration so your vision remains clear at all times. High-definition digital lenses guarantee the widest fields of vision without distortion for better peripheral vision and overall clarity. For progressive lens wearers, this also allows you greater control switching from near and far views.

One of the risks of fluorescence microscopy is the possibility of photobleaching, which happens when the fluorescent molecules in a sample become chemically damaged from the excited electrons. Over time, this causes the sample in question to lose its fluorescence. Two ways to try and prevent or reduce the effects of photobleaching include minimizing the amount of illumination used and using stronger fluorophores.