Magus

MAGUS Metal D630 BD metallographic digital microscope for bright field, dark field and polarization microscopy techniques. Powerful halogen illumination produces a quality image with any objective lens and microscopy method. The microscope is designed for quality control and study of the microstructure of semiconductor materials, metals and opaque objects. It is used to conduct research at manufacturing plants, research center laboratories and university departments.

MAGUS Metal D630 BD LCD digital metallographic microscope for bright field, dark field and polarization microscopy techniques. Powerful halogen illumination produces a quality image with any objective lens and microscopy method. The microscope is designed for quality control and study of the microstructure of semiconductor materials, metals and opaque objects. It is used to conduct research at manufacturing plants, research center laboratories and university departments.

The MAGUS Metal V700 BD metallographic microscope is an inverted metallographic microscope: this means that the nosepiece is positioned below the sample and that observations are carried out in reflected light. Available microscopy techniques: bright field, dark field or polarized light. This microscope is used for the examination of metals, alloys, semiconductor materials and other non-transparent materials of large dimensions weighing up to 2 kg. It is widely used in industrial plants, factories, quality control laboratories as well as universities and research centers.

The MAGUS Metal VD700 BD digital metallographic microscope is an inverted metallographic microscope: this means that the nosepiece is positioned below the sample and that observations are carried out in reflected light. Available microscopy techniques: bright field, dark field or polarized light. This microscope is used for the examination of metals, alloys, semiconductor materials and other non-transparent materials of large dimensions weighing up to 2 kg. It is widely used in industrial plants, factories, quality control laboratories as well as universities and research centers.

The MAGUS Metal VD700 BD LCD metallographic microscope is a digital inverted metallographic microscope: this means that the nosepiece is positioned below the sample and that observations are carried out in reflected light. Available microscopy techniques: bright field, dark field or polarized light. This microscope is used for the examination of metals, alloys, semiconductor materials and other non-transparent materials of large dimensions weighing up to 2 kg. It is widely used in industrial plants, factories, quality control laboratories as well as universities and research centers.

The MAGUS Metal 650 BD metallographic microscope is suitable for observing the surfaces of photomasks, integrated circuits, printed circuit boards and other long and wide objects. It features a large stage that can accommodate large specimens and fine focusing with a value of 0.7 µm for high precision observations at high magnification. Microscopy techniques in bright field, dark field and polarized light. The microscope is suitable for quality control laboratories, research centers and university departments.

Research stereomicroscope with apochromatic optics. It is designed to observe three-dimensional objects and the details of their structure while maintaining the virtual volume and clarity of the surface relief. It is also equipped with an integrated transmitted light illuminator for examining transparent objects in bright field. The installation of additional accessories will allow dark field, fluorescence and polarization methods. The CMO (Common Main Objective) system offers a wide field of view, high resolution, accurate color reproduction and no field distortion. It produces an equally detailed and clear image in eyepieces as well as on a digital camera. The CMO design involves the installation of additional components in the optical system. The microscope is used for forensic examination, industrial inspection, biology, medicine (including IVF), microelectronics, materials science and archaeology.

The MAGUS Lum V500 inverted fluorescence microscope is designed for observing samples in laboratory glassware with a height of up to 55 mm and a bottom thickness of up to 1.2 mm. By tilting the illuminator support, it becomes possible to use larger laboratory glassware, up to 165 mm. Samples can be observed in reflected light (fluorescence microscopy technique) and in transmitted light (with bright field and phase contrast microscopy). The main fields of application of this microscope are: medicine, pharmacology, biochemistry, epidemiology, etc.

The MAGUS Metal D650 BD digital metallographic microscope is suitable for observing the surfaces of photomasks, integrated circuits, printed circuit boards and other long and wide objects. It features a large stage that can accommodate large specimens and fine focusing with a value of 0.7 µm for high precision observations at high magnification. Microscopy techniques in bright field, dark field and polarized light. The microscope is suitable for quality control laboratories, research centers and university departments.

The MAGUS Metal D650 BD LCD digital metallographic microscope is suitable for observing the surfaces of photomasks, integrated circuits, printed circuit boards and other long and wide objects. It features a large stage that can accommodate large specimens and fine focusing with a value of 0.7 µm for high precision observations at high magnification. Microscopy techniques in bright field, dark field and polarized light. The microscope is suitable for quality control laboratories, research centers and university departments.

The MAGUS Lum V500L is an inverted microscope for fluorescence microscopy in reflected light and brightfield and phase contrast microscopy in transmitted light. For fluorescence microscopy, filters for DAPI, FITC and TRITC fluorochromes are used. The inverted design allows you to analyze samples contained in laboratory glassware, such as Petri dishes, test tubes, etc. The height of the glassware can reach 55 mm or 165 mm when the stand is tilted. The optics are designed for laboratory glassware with a 1.2 mm thick bottom. This microscope is ideal for research and routine work in the laboratory and can be used for educational purposes.

The MAGUS Lum V500 inverted fluorescence microscope is designed for observing samples in laboratory glassware with a height of up to 55 mm and a bottom thickness of up to 1.2 mm. By tilting the illuminator support, it becomes possible to use larger laboratory glassware, up to 165 mm. Samples can be observed in reflected light (fluorescence microscopy technique) and in transmitted light (with bright field and phase contrast microscopy). The main fields of application of this microscope are: medicine, pharmacology, biochemistry, epidemiology, etc.

Research microscope. Designed for the observation of transparent and translucent biological specimens, such as smears and cross sections in transmitted light using the bright field method. The installation of additional accessories will allow darkfield, phase contrast, differential interference contrast, fluorescence and polarization methods. The motorized nosepiece and condenser automate the changing of objectives and the adjustment of the objective system of lighting. The settings are not a source of distraction for the user, who can thus concentrate his attention on the live research, speeding up the procedure. The microscope is suitable for microbiological analysis, medical diagnostics and resolution of research problems scientific.

The MAGUS Lum V500L is an inverted microscope for fluorescence microscopy in reflected light and brightfield and phase contrast microscopy in transmitted light. For fluorescence microscopy, filters for DAPI, FITC and TRITC fluorochromes are used. The inverted design allows you to analyze samples contained in laboratory glassware, such as Petri dishes, test tubes, etc. The height of the glassware can reach 55 mm or 165 mm when the stand is tilted. The optics are designed for laboratory glassware with a 1.2 mm thick bottom. This microscope is ideal for research and routine work in the laboratory and can be used for educational purposes.

The MAGUS Lum V500 inverted fluorescence microscope is designed for observing samples in laboratory glassware with a height of up to 55 mm and a bottom thickness of up to 1.2 mm. By tilting the illuminator support, it becomes possible to use larger laboratory glassware, up to 165 mm. Samples can be observed in reflected light (fluorescence microscopy technique) and in transmitted light (with bright field and phase contrast microscopy). The main fields of application of this microscope are: medicine, pharmacology, biochemistry, epidemiology, etc.

The MAGUS Lum V500L is an inverted microscope for fluorescence microscopy in reflected light and brightfield and phase contrast microscopy in transmitted light. For fluorescence microscopy, filters for DAPI, FITC and TRITC fluorochromes are used. The inverted design allows you to analyze samples contained in laboratory glassware, such as Petri dishes, test tubes, etc. The height of the glassware can reach 55 mm or 165 mm when the stand is tilted. The optics are designed for laboratory glassware with a 1.2 mm thick bottom. This microscope is ideal for research and routine work in the laboratory and can be used for educational purposes.

This microscope is designed for studying the microstructures of metals, alloys, semiconductor materials and other opaque samples. The inverted microscope design does not limit the size of the sample examined; only its weight is limited up to 2 kg. The sample to be analyzed must first be appropriately processed, then positioned on the stage with the surface of interest facing downwards. The microscope performs three contrast techniques in reflected light: bright field, simple polarization and differential interference contrast. /> The brightfield method allows for an authentic enlarged image of the object. Simple polarization removes reflection from metal surfaces and highlights polymers and other foreign elements. Differential interferential contrast colors the difference in height of an object, revealing its topography. The object of study will appear in relief. The trinocular tube and the side port for the camera allow simultaneous connection to a monitor and a camera. The microscope can be used in various fields (metallurgy, engineering , aerospace, nuclear and energy industries) as well as in research laboratories and technical universities.

Microscope for scientific research and industrial inspection. Designed to study objects in polarized and natural light. The installation of optional components will allow the use of dark field and transmitted light phase contrast methods as well as dark field, differential interference contrast and reflected light fluorescence. With the transmitted light technique, it is possible to study anisotropic geological and biological samples, as well as polymer samples in thin sections. With the reflected light technique, polished sections with one side polished can be studied. The thickness of the polished sections is arbitrary, normally 5–10 mm. The microscope allows you to examine opaque objects up to 15 mm thick. A polarizing microscope uses the birefringence of anisotropic samples to provide an image. When plane polarized light passes through an anisotropic sample, it splits into two rays and changes the polarization plane. The analyzer brings the beam oscillations into a single plane, where they interfere. The bright, high-contrast image changes color as the stage is rotated. Semi-apochromatic planar microscope objectives are free from internal deformations. The intermediate tube houses the analyzer and Bertrand lenses and has a housing for the compensators. The microscope is used in crystallography, petrography, mineralogy, forensic science, medicine and other scientific fields.

This microscope is designed for studying the microstructures of metals, alloys, semiconductor materials and other opaque samples. The inverted microscope design does not limit the size of the sample examined; only its weight is limited up to 30 kg. The sample to be analyzed must first be appropriately processed, then positioned on the stage with the surface of interest facing downwards. This microscope can study opaque objects in reflected light using bright field, dark field and polarization microscopy techniques and differential interference contrast. DIC is an advanced polarization contrast technique. The method increases the depth of field and clarity of the image, provides additional information about the structure of the studied object and displays irregularities on the surfaces studied with color. Flat surfaces are colored the same way, but a surface with even minimal differences in height will have a non-uniform color. The object of study will appear in relief. The microscope can be used in various fields (metallurgy, engineering, aerospace, nuclear and energy sectors) as well as in research laboratories and technical universities.