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Witness the microscopic world in stunning detail with our high-quality optics. Every slide comes to life with crystal-clear clarity, allowing you to delve into the intricacies of biology, chemistry, and beyond.

Microscope objectives are vital lenses that determine the magnification, resolution, and quality of the images produced by a microscope. They come in various types and magnifications, each suited for different applications and levels of detail, making them indispensable in scientific research, medical diagnostics, and educational settings.

A trinocular microscope head combines the benefits of binocular viewing with the capability to capture digital images or videos of specimens. It is particularly suited for advanced research, educational purposes, and industrial applications where precise imaging and documentation are essential.

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Commonly used in biological research, medical diagnostics, and educational settings for detailed examination of specimens.

Compound Magnification is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece.

Magnification works by bending light through lenses or using digital technology to enlarge the appearance of an object, allowing for detailed observation and analysis.

Divergence means that, as the beam propagate, the same amount of radiation spread over larger area. Thus reducing the power density and the effectiveness of the ...

Magnification is the process of enlarging the appearance of an object, making it look bigger than its actual size. In optics, it is the ratio of the size of the image produced by a lens or microscope to the actual size of the object being viewed.

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Compound microscopes are suited for detailed examination of microscopic structures, while stereo microscopes are more appropriate for observing larger objects in three dimensions and for tasks that involve manipulation and dissection.

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A Compound Microscope is a type of optical microscope that uses multiple lenses to magnify small objects. It consists of two sets of lenses: the objective lens, which is closer to the specimen and provides the initial magnification, and the eyepiece lens, which further magnifies the image for the viewer's eye. Light passes through the specimen and is magnified by the objective lens, then further magnified by the eyepiece lens, resulting in a highly magnified image visible to the observer. Compound microscopes are commonly used in biology, medicine, and other scientific fields for viewing cells, tissues, and other small structures.

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Illuminate your subjects with brilliance. Our microscopes feature advanced lighting technologies, providing the perfect balance for optimal observation, even in low-light conditions.

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

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The particular wavelength of light is determined by the amount of energy released when the excited electron drops to a lower orbit. The levels of energy introduced can be tailored to the material in the gain medium to produce the desired beam color.

Lasers have been around since 1960, although the idea goes back to 1900 (see “A Legacy of Lasers and Laser Fusion Pioneers”).

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Lasers can be tiny constituents of microchips or as immense as NIF, the world’s most energetic laser housed in a building 10 stories high and as wide as three football fields.

Used in fields like biology, geology, entomology, electronics assembly, and manufacturing for tasks requiring manipulation and examination of objects in three dimensions.

A laser is created when electrons in the atoms in optical materials like glass, crystal, or gas absorb the energy from an electrical current or a light. That extra energy “excites” the electrons enough to move from a lower-energy orbit to a higher-energy orbit around the atom’s nucleus.

A phase contrast microscope is an optical microscope designed to enhance the contrast of transparent and colorless specimens without the need for staining. It works by exploiting differences in the refractive index of different parts of the specimen, transforming these differences into variations in light intensity.

A binocular microscope head utilizes two eyepieces for simultaneous viewing with both eyes, providing enhanced comfort, depth perception, and superior image quality. Ideal for professional and research settings requiring detailed observation, its design minimizes eye strain and enhances ergonomic support compared to monocular microscopes.

Some lasers, such as ruby lasers, emit short pulses of light. Others, like helium–neon gas lasers or liquid dye lasers, emit light that is continuous. NIF, like the ruby laser, emits pulses of light lasting only billionths of a second. Laser light does not need to be visible. NIF beams start out as invisible infrared light and then pass through special optics that convert them to visible green light and then to invisible, high-energy ultraviolet light for optimum interaction with the target.

A monocular microscope head is a basic type of microscope head with a single eyepiece, ideal for cost-effective and straightforward applications. It is particularly useful in educational settings and for beginners, but it can lead to eye strain over long periods and lacks the depth perception provided by more advanced binocular and trinocular heads.

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Light moves in waves. Ordinary visible light, say from a household light bulb or a flashlight, comprises multiple wavelengths, or colors, and are incoherent, meaning the crests and troughs of the light waves are moving at different wavelengths and in different directions.

Provides high magnification (up to 1000x or more) and high resolution for viewing fine details of cells, tissues, and microorganisms.

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Capable of high magnification, which is achieved through the combination of the objective lens (typically 4x, 10x, 40x, and 100x) and the eyepiece (usually 10x).

A microscope is a scientific instrument used to magnify and observe objects that are too small to be seen with the naked eye. It works by focusing light or electrons to create an enlarged image of the specimen.

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Two become four, four become eight and so on until the photons are amplified enough for them to all move past the mirrors and the optical material in perfect unison. Think of them as synchronized members of a marching band in the Rose Parade. And that unison gives the laser its power. Laser beams can stay sharply focused over vast distances, even to the moon and back.

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The terms monocular, binocular, and trinocular refer to the different types of microscope heads, each offering a distinct way of viewing the specimen.

A specimen is a sample or example used for scientific study. It can be anything from biological tissues to materials, examined under a microscope or other instruments for analysis.

A darkfield microscope is a type of optical microscope that provides high contrast images of unstained specimens by using scattered light. The specimen appears bright against a dark background

Navigate effortlessly through magnification levels and focus adjustments. Our microscopes feature intuitive controls, allowing you to concentrate on your research without the hassle of complicated settings.

Today, lasers come in many sizes, shapes, colors, and levels of power, and are used for everything from surgery in hospitals, to bar code scanners at the grocery store, and even playing music, movies, and video games at home. You might have undergone LASIK surgery, which corrects your vision by using a tiny laser to reshape the cornea of your eye.

Uses two separate optical paths with two objective lenses to provide a stereoscopic (3D) view of larger, opaque specimens.

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In a laser beam, the light waves are “coherent,” meaning the beam of photons is moving in the same direction at the same wavelength. This is accomplished by sending the energized electrons through an optical “gain medium” such as a solid material like glass, or a gas.

An optical microscope is used with multiple objectives attached to a part called revolving nosepiece. Commonly, multiple combined objectives with a different ...

A laser takes advantage of the quantum properties of atoms that absorb and radiate particles of light called photons. When electrons in atoms return to their normal orbit—or “ground” state—either spontaneously or when “stimulated” with a light or other energy source, even another laser in some cases, they emit more photons.

A stereo microscope, also known as a stereoscopic or dissecting microscope, provides three-dimensional viewing of larger, opaque specimens through dual optical paths with objective lenses. It offers lower magnification (typically 5x to 40x) than compound microscopes but enhances depth perception. Ideal for tasks in biology, geology, and manufacturing, it allows comfortable, extended viewing with ergonomic adjustments.

A mirror on one side of the laser’s optical material bounces the photon back toward the electrons. The space between mirrors, or the “cavity,” is designed so the photon desired for the particular type of optical gain medium are fed back into the medium to stimulate the emission of an almost exact clone of that photon. They both move in the same direction and speed, to bounce off another mirror on the other side to repeat the cloning process.