it should be opaque, so that no one can see
Cuvettes have different surfaces to accommodate various types of optical measurements. Smooth, clear surfaces are used for standard transmission measurements, while frosted or frosted-sidewall surfaces help reduce glare and reflections for fluorescence or absorbance measurements. Some cuvettes also have special optical coatings to enhance sensitivity or reduce background interference.
The low index of refraction in optical materials is significant because it determines how light waves travel through the material. A low index of refraction means that light waves will bend less when passing through the material, leading to less distortion and better optical clarity. This property is important for creating high-quality lenses and other optical devices.
The imaginary index of refraction is important in optical materials because it helps describe how light is absorbed within the material. It indicates the material's ability to absorb light at different wavelengths, which affects its transparency and color. This property is crucial for designing optical devices and understanding how light interacts with different materials.
Birefringence is the optical property of a material where light is split into two perpendicular polarization components that travel at different speeds. This causes the light to be refracted in two different directions, resulting in double refraction. Birefringent materials are commonly used in polarizing filters and optical devices.
The property is known as resolution. Resolution refers to the ability of an optical instrument to produce distinct images of closely spaced objects. Higher resolution allows for finer details to be distinguished in the images.
Cuvettes have different surfaces to accommodate various types of optical measurements. Smooth, clear surfaces are used for standard transmission measurements, while frosted or frosted-sidewall surfaces help reduce glare and reflections for fluorescence or absorbance measurements. Some cuvettes also have special optical coatings to enhance sensitivity or reduce background interference.
This category covers establishments primarily engaged in manufacturing instruments and apparatus that measure an optical property
It should be opaque
Optical rotation is the turning plane of linearly polarized light as it travels through certain materials. Specific rotation is the property of a chemical compound as the change in orientation of a plane of light.
Ability to detect radio waves is not a property of optical telescopes. Optical telescopes are designed to detect and focus visible light to form images of distant objects in space. Radio telescopes, on the other hand, are specifically designed to detect and study radio waves emitted by celestial objects.
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This category covers establishments primarily engaged in manufacturing instruments and apparatus that measure an optical property
Triboluminescence is a physical property that results from mechanical stress or impact on certain materials, causing them to emit light without undergoing a chemical reaction.
There are a number of properties which are considered to be a special property that applies to only a few minerals. Some of them include magnetism, optical and florescence properties.
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It refers to the process of surveying the boundary whereby the survey crew sights - either with optical devices or lasers - from point to point referenced in the legal description of the property.
Study the optical transmission property of glass, to learn more. also: http://en.wikipedia.org/wiki/Optical_fiber You might wish to refine the question to differentiate between optical bandwidth and data bandwidth. If a laser can be modulated and the beam directed through an optical fiber, then the data or the analog bandwidth is about equal to the modulation bandwidth capability of the laser in Hz per second.