High-speed galvanometer scanners - galvanometer scanner

 2024-08-20 15:14:58

For example, Tiffen and B+W have 0.3, 0.6 and 0.9 ND filters for reducing one, two and three stops of light. Hoya, on the other hand, uses 2×, 4× and 8× to indicate reducing 1 (i.e. 2=21), 2 (i.e., 4=22), and 3 (i.e., 8=23) stops. The two ND filters come with Nikon's Coolpack are of ND4 and ND8 type, which means they reduce two and three stops, respectively. All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Laser light is not quite the same as conventional light. It has different remarkable properties like coherence, monochromaticity, directionality, and extreme focus. Because of these special properties, nowadays lasers are utilized in different applications.

Optical communication has been one of the major driving thrusts in developing laser diode technology. Today, diode lasers are vital parts of any broadband communication framework. They are utilized as rapid transmitters in advanced and simple fibre optic organizations. They are also used to pump lasers in Erbium doped amplifiers or EDFAs, or as high-power pulsed lasers in tests and measurement sectors. Laser communications frameworks are wireless connections through the atmosphere. Light speed is believed to be the fastest speed that anything can travel. So, laser communications and laser sensing are significant in mortar defense and other pivotal aerospace applications.

Neutral Density FilterCanon

Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Chemical absorption is often much more quick and more efficient than physical absorption. The opposite of gas absorption is liquid stripping and these processes ...

I can see all kinds of problems even trying to machine it. Work holding, coolant, heat generation massive, brittleness, diamond cutters. I think ...

A semiconductor laser is usually referred to as a laser diode since it works similar to a diode with current flowing in the forward direction of the junction.

In these types of lasers, a fibre made of silicate or sometimes phosphate glass absorbs raw light from the pump laser diodes and transforms it into a laser beam with a particular wavelength. To do so the optical fibre is doped. By using various doping elements, laser beams can be produced with a wide range of wavelengths.

A gas laser is a laser wherein an electric flow is released through a gas inside the laser medium to deliver laser light. In case of gas lasers, the laser media is itself in the gaseous state.

Recall that the thick red line indicates a constant exposure value (i.e., EV). To achieve this "correct" exposure, there are many different aperture-shutter speed combinations. After adding a ND filter, the exposure value is reduced because there is less light passing through the lens. This is shown as a dashed line in the above figure. Thus, if we want to keep the original shutter speed (without using a ND filter), aperture has to be wider; or, if we want to keep the original aperture, shutter speed must be slower. Different ND filter manufacture many use a different way to indicate the amount of light a ND filter can reduce. There are two typical systems as shown below: Density 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 2.0 3.0 4.0 Reduction by f-stops 1/3 2/3 1 1 1/3 1 2/3 2 2 1/3 2 2/3 3 3 1/3 6 2/3 10 13 1/3 For example, Tiffen and B+W have 0.3, 0.6 and 0.9 ND filters for reducing one, two and three stops of light. Hoya, on the other hand, uses 2×, 4× and 8× to indicate reducing 1 (i.e. 2=21), 2 (i.e., 4=22), and 3 (i.e., 8=23) stops. The two ND filters come with Nikon's Coolpack are of ND4 and ND8 type, which means they reduce two and three stops, respectively. All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

A solid-state laser is one that utilizes a crystal, whose atoms are rigidly bonded, in contrast to a gas. The crystal produces laser light after a large amount of light is pumped into it by either a lamp or some other laser source. Since the laser light goes in a similar course as an intense beam, the laser creates an extremely brilliant light. It is exceptionally intensified and it might actually hurt humans.

A liquid laser, as the name suggests, involves the liquid as a laser medium. In liquid lasers, light acts as a supplier of energy to the laser medium.

Neutral Density Filterglasses

With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

OpticalDensity filter

Consistently, the utilization of lasers for military purposes keeps on developing. Numerous armies from various nations utilize various sorts of laser frameworks for their particular battle tasks and activities. Traditional troops of land powers, cannons, air protection, and flying powers today perceive the laser as a significant functional component in expanding the accuracy and effectiveness of battle tasks. Lasers are additionally important for different training sessions in the instructive course of military servicemen in military schools and colleges as well.

The main purpose of using neutral density (i.e., ND) filters is to reduce the amount of light that can pass through the lens. As a result, if a shutter speed is kept the same, after adding a neutral density filter, a larger aperture must be used to obtain the same exposure. Similarly, if an aperture is kept the same, after adding a neutral density filter, a slower shutter speed must be used to obtain the same exposure. This can be seen in the following diagram. Note that this diagram was discussed in the Program Mode (950, 990 and 995). Recall that the thick red line indicates a constant exposure value (i.e., EV). To achieve this "correct" exposure, there are many different aperture-shutter speed combinations. After adding a ND filter, the exposure value is reduced because there is less light passing through the lens. This is shown as a dashed line in the above figure. Thus, if we want to keep the original shutter speed (without using a ND filter), aperture has to be wider; or, if we want to keep the original aperture, shutter speed must be slower. Different ND filter manufacture many use a different way to indicate the amount of light a ND filter can reduce. There are two typical systems as shown below: Density 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 2.0 3.0 4.0 Reduction by f-stops 1/3 2/3 1 1 1/3 1 2/3 2 2 1/3 2 2/3 3 3 1/3 6 2/3 10 13 1/3 For example, Tiffen and B+W have 0.3, 0.6 and 0.9 ND filters for reducing one, two and three stops of light. Hoya, on the other hand, uses 2×, 4× and 8× to indicate reducing 1 (i.e. 2=21), 2 (i.e., 4=22), and 3 (i.e., 8=23) stops. The two ND filters come with Nikon's Coolpack are of ND4 and ND8 type, which means they reduce two and three stops, respectively. All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

A dye laser is an illustration of a liquid laser. A dye laser is a laser that utilizes an organic dye (a liquid solution) as the laser medium. These lasers produce laser light from the excited energy conditions of organic dyes disintegrated or dissolved in liquid solvents. It produces laser light beams in the near-ultraviolet to near-infrared region of the spectrum.

elektraLite SRAY FRSNL VW Variable White 600w bi-color Fresnel Spotlight with Electronic Zoom. Overview. The elektraLite VW 600w Fresnel brings a new look to ...

Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Aerosol Duster, which is commonly referred to as canned air, compressed air, and dusting gas, is used knock dust and dirt loose with a pressurized ...

Neutral density filterOphthalmology

Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

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Neutral density filtervs polarizer

Metal vapour lasers are a sort of gas laser which uses a metal vapour as a laser gain medium. More explicitly, the laser-active agents are metal atoms, or in some cases metal ions. Accessible emission frequencies of metal vapour lasers range from infrared to ultraviolet. The metal vapour is in many cases contained by a quartz tube, having cathodes, laser mirrors and optical windows at its closures.

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LASER is an acronym for Light Amplification by stimulated emission of radiation. It is a device that emits light (basically electromagnetic radiation) through the process of stimulated emission.

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Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

A metal vapour laser uses metal atoms in a gaseous or plasma state as the gain medium. Electrical excitation of the metal vapour produces photons that stimulate further emission and amplification when trapped by mirrors, resulting in a coherent metal vapour laser beam. The key aspect is the use of vaporized metal atoms as the active gain medium.

Lasers are now an inseparable part of science and technology. From studying the research mechanism like Brownian motion to three-dimensional printing in space without the use of lenses, lasers are used everywhere. Some more applications are as follows: It helps in determining the rate of rotational motion of the Earth, detecting earthquakes and finding nuclear blast underwater. It is also useful for storing large amounts of data on CD Drives and also to retrieve them.

A solid-state laser uses a doped solid gain medium that, when excited, releases photons with the same wavelength. Mirrors trap the photons to stimulate more emission, producing amplification and eventually a coherent laser beam through an output mirror.

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Laser was first introduced in medical sciences in 1961. Nowadays, lasers are in great demand in medical industry because of their high precision and less chances of infection. It also helps surgeons to perform complex operations and even reduces blood losses. Medical lasers are used for different clinical procedures including dermatology and plastic surgeries, injuries healings, nerve stimulation, dentistry, and cancer therapy. Diode lasers have been generally utilized in numerous surgeries including soft tissue cutting, coagulation and cancer thermal therapy. Different photosensitizers are introduced in matching the laser assimilation frequencies.

There are various modern applications that could benefit from the utilization of a laser, which is found in numerous industries. Industrial lasers are utilized to cut metals and textures, mark tracking codes for modern traceability, weld metals with high accuracy, clean metal surfaces, change the surface harshness, and measure part dimensions. They are broadly utilised in several industries. For example, the EV and primary metals industries. Modern lasers are upgraded utilizing more elaborate techniques to build their power, accuracy, and vigor or robustness, however the principle remains the same.

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Different ND filter manufacture many use a different way to indicate the amount of light a ND filter can reduce. There are two typical systems as shown below: Density 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 2.0 3.0 4.0 Reduction by f-stops 1/3 2/3 1 1 1/3 1 2/3 2 2 1/3 2 2/3 3 3 1/3 6 2/3 10 13 1/3 For example, Tiffen and B+W have 0.3, 0.6 and 0.9 ND filters for reducing one, two and three stops of light. Hoya, on the other hand, uses 2×, 4× and 8× to indicate reducing 1 (i.e. 2=21), 2 (i.e., 4=22), and 3 (i.e., 8=23) stops. The two ND filters come with Nikon's Coolpack are of ND4 and ND8 type, which means they reduce two and three stops, respectively. All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

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Because of these characteristics, they are one of the main classes of lasers being used today. They are utilized not only in applications like optical data storage and optical fibre communication, but also act as a pumping source for solid-state lasers.

By injecting charge carriers into the region of space as characterized by the junction, recombination radiation can happen. Given this current infusion is sufficient, a population inversion can also be accomplished and stimulated emission will happen.

Neutral density filterchart

Density 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 2.0 3.0 4.0 Reduction by f-stops 1/3 2/3 1 1 1/3 1 2/3 2 2 1/3 2 2/3 3 3 1/3 6 2/3 10 13 1/3 For example, Tiffen and B+W have 0.3, 0.6 and 0.9 ND filters for reducing one, two and three stops of light. Hoya, on the other hand, uses 2×, 4× and 8× to indicate reducing 1 (i.e. 2=21), 2 (i.e., 4=22), and 3 (i.e., 8=23) stops. The two ND filters come with Nikon's Coolpack are of ND4 and ND8 type, which means they reduce two and three stops, respectively. All ND filters are gray in color. The deeper the color, the stronger the effect (i.e., reducing more light). The following shows Nikon's ND4 (font) and ND8 (rear) filters. From the shadows, it is clear that a ND8 blocks more light than a ND4 does. Based on this understanding, ND filters help us in at least three situations: (1) reduce the intensity of light; (2) use slower shutter speed; and (3) use larger aperture. We shall discuss each of these situation briefly below. Reducing the Intensity of Light Nikon Coolpix 950, 990 and 995 have smallest aperture (resp., fastest shutter speed) f11.4, f11 and f10.3 (resp., 1/750, 1/1000 and 1/2000). Occasionally, it is possible that a correct exposure cannot be achieved even with the smallest aperture and fastest shutter speed. In such cases, ND filters become useful, because they can reduce the intensity of the light so that a photo can be taken within the limit of your camera. This is actually a common situation when film cameras and high speed films are used. Using Slower Shutter Speed Reducing the intensity of light means we can either use a slower shutter speed or a larger aperture. A slower shutter speed can cause moving objects blurred (i.e., motion blur) which creates a sense of motion. The following images were taken using the Aperture-Priority Mode (950, 990 and 995). The aperture was set to F2.8, the largest possible aperture, so that shutter speed can be reduced properly. The left image below was taken without a ND filter, and, as you can see, the truck (running about 40 miles) is frozen. Adding a ND4 filter to reduce 2 stops (i.e., slowing the shutter speed to a quarter of that used for the left image), the vehicle shows motion blur (middle image below). Motion blur becomes even more significant if ND8 is used instead of ND4 (right image below) which reduces the shutter speed to 1/8 of that used for the left image. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image Note that a number of ND filters can be stacked up to further reduce the intensity of light. The following image was taken by using both the ND4 and ND8 filters. This reduces the intensity of light to 1/32 (i.e., 5=2+3 stops) of the original. Now motion blur is so obvious even in a small image. With both ND4 and ND8 filters Click on the icon to see a larger image Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image

We all may have played with laser light in our childhood for entertainment purposes and sometimes disturbing others. But that’s not it all. Lasers in today’s time are revolutionary technology in every field, whether it is medicine, defence, communication or even in science and technology. Lasers are a key component of large numbers of the items that we utilise today. Lasers are categorised into five main types based on their gain medium, which determines the type of laser needed for different applications. These include Solid-state laser, Liquid-state laser, Gaseous-state laser, Semiconductor laser and Metal Vapour laser.

Using Larger Aperture Since ND filters reduce the amount of light that can pass through the lens tube, they can be used to open up the aperture while keep the shutter speed the same. Keep in mind that a larger aperture produces a shallower Depth of Field (950, 990 and 995). The following images were all taken with a shutter speed of 1/30 second. The left one did not use a ND filter and the aperture used was F10.7. As you can see, the background is only blurred a little, and the subject seems part of the background. Adding a ND4 filter reduces the aperture to F5.4. The background is further blurred and the subject is isolated from the background. Using the ND8 filter reduces the aperture to F3.9. Now the subject is well isolated from the background! Moreover, it shows a sense of distance. While we can stack both ND4 and ND8 filters together, since the aperture of your camera is not large enough, doing so will produce underexposure images. Without ND With ND4 filter With ND8 filter Click on the icon to see a larger image