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i. A geologic deposit bounded by converging surfaces (at least one of which is curved), thick in the middle and thinning out toward the edges, resembling a ...

2. In the medical field, the fluorescence microscope can use fluorescent reagents to detect the presence and distribution of bacteria and viruses, or to assist in labeling surgical targets to facilitate surgery.

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3. In the field of mineralogy, the fluorescence microscope is often used to study substances with spontaneous fluorescence properties, such as asphalt, petroleum, coal, graphene oxide and other minerals.

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The emission filter passes only the wavelengths emitted by the fluorophore and blocks all undesired light outside this band – especially the excitation wavelengths.

4. In materials science, the fluorescence microscope can be used in the textile industry or the paper industry to analyze fiber-based materials.

noun A lens or combination of lenses that enlarges the image of an object. from The Century Dictionary. noun In optics, a convex lens: so called because objects ...

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The dichroic mirror is a type of optical filter that reflects light at certain wavelengths while transmitting others. It is used in fluorescence microscopes to separate the excitation and emission wavelengths.

by ML Landsman · 1976 · Cited by 1017 — The absorption spectrum of indocyanine green depends on the nature of the solvent medium and on the dye concentration. Binding to plasma proteins causes the ...

Confocal Fluorescence Microscope: This type of fluorescence microscope combines laser scanning with fluorescent illumination to produce an image. It can be used in wide range of applications, such as studying cells and tissues, detecting proteins and other substances within cells, and measuring the thickness of materials.

A fluorescence microscope is a type of optical microscope that uses a high-intensity light source to illuminate the specimen and excite fluorochromes in the sample. The illumination of the specimen is usually done with a light source that emits ultraviolet light. They are widely used in biological, medical and industrial fields.

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-The photobleaching due to the electron excitation during the process of fluorescence may affect reactive molecules of the fluorescent dyes. As a result, the reactive dyes might lose their chemical property of fluorescence emission intensity.

The excitation filter is essential for the operation of a fluorescence microscope. It passes the light of a shorter wavelength, which the fluorescent dye could absorb. Also, it blocks the other sources of exciting light.

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Roughness affects the wettability of a solid and thus the contact angle of a liquid as well as adhesion. A rule of thumb states that roughness improves ...

1. In the field of biology, the fluorescence microscope enables accurate and detailed identification of cellular and submicroscopic cellular components and activities with the help of fluorescent dye labeling.

It is the most common type of fluorescence microscope. The excitation of the fluorophore and detection of the fluorescence are done through the same light path (i.e. through the objective). The majority of fluorescence microscopes, especially those used in the life sciences, are of the epifluorescence design.

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Mar 8, 2021 — Simply Supported Reinforced Concrete Beam Analysis and Design (CSA A23.3-14) ... D + Lsustained, D ... Use the effective or full beam flange width.

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Diffuse Glass (Solar Energy Greenhouse Glass) Features ... Single side AR coated can increase transmittance 2.5%-3%; double sides AR coated can increase ...

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Fluorescent dyes are organic compounds that possess a property of fluorescence, by which they can form a fluorescent image by emitting highly contrast visible green light after getting excited by the highly illuminating ultraviolet light. Commonly used fluorescent dyes are; DAPI (49,6-diamidino-2-phenylindole), acridine orange, auramine-rhodamine, Alexa Fluors, or DyLight 488.

-The cells are susceptible to the phototoxic effect after staining with fluorescent dyes, as the fluorophore molecules absorb the high energy photons from the short-wavelength light.

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This kind of microscope’s light source and condenser are located on the top, facing downwards. The angle of illumination must be at 90 degrees with respect to the surface of the specimen being examined.

The most common light sources are mercury, xenon, and LEDs. Mercury provides the best quality of light for fluorescence microscope. LEDs are becoming more popular because they are less expensive than other sources and they consume less power.

A fluorescence microscope uses a mercury or xenon lamp to produce ultraviolet light. The light comes into the microscope and hits a dichroic mirror — a mirror that reflects one range of wavelengths and allows another range to pass through. The dichroic mirror reflects the ultraviolet light up to the specimen. Some specimens fluoresce naturally under ultraviolet light because they contain fluorescent substances such as chlorophyll. If the specimen to be viewed does not naturally fluoresce, it can be stained with fluorescent dyes called fluorochromes.

f Number Calculator ... Method. The f/# and NA are calculated from the aperture size (or Gaussian 1/e² beam width) and the focal length in air. Known ratios, ...

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Fluorescence microscopes are widely used in various fields of research and application including biochemistry, cell biology, microbiology, immunology, and medicine.

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