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Artificial sources ofUV light

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Uv sourcePython

Microfocus X-ray sources specifically developed for 2D and 3D nondestructive testing. A small focal point prevents blurring of x-ray images and delivers a sharp, enlarged image.

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Our lamp modules and lamp units are assembled with a matching power supply and other functions making them suitable for a wide range of user applications.

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Most forms of infrared energy can be seen and measured only with the use of specialized equipment, such as infrared cameras and telescopes or night-vision goggles. These technologies use infrared waves to measure the heat released, or radiated, by an object. As the temperature of an object increases, the movement of its atoms increases and the object radiates more infrared energy. The infrared energy radiated by the object can be detected and then converted into an electronic signal used to produce a visual or thermal image.

Visiblelight source

Scientists use infrared imaging technologies in a wide range of applications. To name just a few: Earth-observing satellites study changes in land and sea surface temperatures, night-vision cameras monitor nocturnal animal behavior, telescopes detect cooler and more distant objects in the universe, and satellites monitor location and intensity of lava flows and forest fires.

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Energy in the form of light waves travels within and beyond the solar system and makes life on Earth possible. Light waves occur along an electromagnetic spectrum according to their wavelengths and energy. The human eye can only see visible light waves. Infrared light has longer wavelengths and lower energy than visible light and cannot be seen with the human eye. Mosquitoes, vampire bats, bed bugs, and some snake and beetle species, however, can use portions of the infrared spectrum for vision. Sometimes humans can “see” infrared energy in the form of heat. Sitting near a campfire is an example of experiencing visible light as color and infrared light as heat.

The Laser-Driven Light Sources or LDLS is an innovative light source developed by Energetiq Technology inc. in the US, which is a subsidiary of Hamamatsu Photonics K.K. LDLS is the only light source in the world that utilizes a focused laser beam to generate and maintain plasma between the discharge electrodes in the xenon gas filled bulb.

Our lamps deliver high stability and long lifetimes. Light measurement technology is utilized in many applications including chemical analysis, medical diagnostic testing, environmental monitoring, and academic research fields.

Our LEDs range from red to mid-infrared, a variety of wavelengths enabled by crystal growth and process technology that supports compound semiconductor materials.

Sources ofUV lightat home

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The Laser-Driven Tunable Light Source (LDTLS™) is a compact, fully integrated and highly stable tunable broadband light source based on proven Laser-Driven Light Source (LDLS™) technology.

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UV light

UV-LED light sources are high output and adopting proprietary air-cooling method. It is appropriate for UV printing, UV bonding, UV coating and other a lot of applications. Choosing best product is available from irradiation area, wavelength, output power and so on.

light sourcein uv-visible spectroscopy

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Excimer lamp light sources contribute to surface modification, dry cleaning, oxidative decomposition, TOC measurement, and VOC decomposition. The optimum product can be selected based on the product size and irradiation area.

Natural sources ofUV light

Using infrared imaging technologies, humans have expanded their range of vision and can now measure and interpret energy information that was once unable to be seen.

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UV light sourcespectrophotometer

The Chromatiq Spectral Engine™ (CSE) is a sophisticated light source capable of matching real-world lighting conditions, emulating illuminant standards, and creating custom spectra.

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