Diode laser illumination has several unique features that enable critical measurements in various industrial and scientific applications. It is an ideal light source for high-speed cameras of all speeds as well as for machine vision cameras. Cavitar Ltd’s CAVILUX laser lighting enables the visualization of applications that may not be achieved with more conventional light sources like LED or halogen lamps.
CAVILUX diode laser illumination has certain characteristics that are highly beneficial in visualization of various applications. First of all the light is highly monochromatic which enables the elimination of thermal radiation or chromatic aberrations. In addition, laser illumination enables high power pulses of short duration which enables the precise visualization of small and fast objects at high resolution and without motion blur. This elimination of motion blur is possible regardless of the camera shutter since the exposure is determined by the laser pulse duration. Furthermore, laser light can be fiber-coupled which can be highly useful e.g. in limited space. These characteristics of lasers make them ideal light sources in numerous demanding processes such as welding, combustion, ballistics, explosions or flow and shockwave studies.
CAVILUX diode lasers can be controlled very precisely and very short pulses can be created. Short pulses are essential in eliminating motion blur which occurs when the object is moving too fast for the camera shutter to capture it. In combination with high-pulse output powers, diode laser is an ideal light source for ballistics, flows and shockwave studies.
In the following we will have a closer look at different applications.
See through heat
When imaging bright processes like welding, combustion or explosions the camera sensor can easily saturate completely due to the large amount of process light. In order to make details visible there are different ways to eliminate this process light.
The first element in reducing process light is proper filtering. One can use e.g. neutral density or narrow band filters. Neutral density filters reduce brightness evenly over broad spectral band. Therefore they make the images darker but don’t affect the relative brightness of objects in the images. So the brightest object in the image will remain brightest. As an example, in arc welding one could reduce the brightness of the arc by applying neutral density filters but at the same time the rest of the image would become very dark. Narrow band filters, on the other hand, allow only a very narrow range of wavelengths to pass to the camera. If the filter is selected properly, a large portion of process light can be eliminated. By actively illuminating the object with narrow band light matching with the transmission band of the filter it is possible to both illuminate the object in a controlled way and at the same time eliminate thermal light effectively.
Another important element in the imaging of bright processes is the camera exposure time. The longer the camera integrates light, the brighter the image. Therefore short camera exposure time is highly preferable in the imaging of bright objects. Since CAVILUX laser illumination can generate sufficient power to illuminate the object properly already with a very short pulse, it enables the use of short camera exposure time. In addition, due to the high brightness of laser illumination, the light can be efficiently focused to the desirable area, thus further emphasizing the advantages of CAVILUX laser illumination as compared to conventional light sources.
With active pulsed laser illumination, short camera exposure time and optimized narrow band filtering one can realize the best possible image quality for light emitting and bright processes. This technique works very well for high-speed cameras as well as for machine vision cameras.
The image below shows the effects of no filtering (left), filtering without laser illumination (middle) and filtering with CAVILUX laser illumination (right):
Figure 1: TIG welding process imaged at 1.000 fps (images taken by Nobby Tech Ltd. in Japan)
Freeze the motion
Many industrial and scientific processes contain small and fast moving objects. As the velocity of the object increases, the amount of motion blur will increase for a fixed camera exposure time. Motion blur reduces the amount of information in the images. In order to address this challenge, many cameras can generate very short exposure times in the micro second level. However, the shorter the exposure time, the higher the demands for illumination. As an example, if the camera exposure time is 1 ms, the illumination sufficient for illuminating the object properly has to be generated during that same exposure time.
In some cases even the micro second level exposure time may be inadequate. Examples of such processes include shockwaves, small-scale explosions or microscopic imaging of fast moving webs. This deficiency can be solved by using a pulsed light source that can generate pulses that are much shorter than the camera exposure time and still contain sufficient amount of light to illuminate the object properly. CAVILUX laser illumination is ideal for this purpose as the pulses can be easily created by digital inputs enabling very short pulses in nanosecond level. In order to achieve high brightness with such short pulses, the output power of the laser has to be high.
The image below shows the difference between a CW (continuous wave) light source (left) and CAVILUX laser illumination with very short pulses (right). In both images the camera exposure time is short. CAVILUX laser illumination reduces motion blur and provides more information as compared to the CW light source.
Figure 2: Shockwave in gel created with sonosensitizer imaged at 500.000 fps (Images taken by Prof. Umemura and Prof. Yoshizawa from Tohoku University in Japan)
Focused light without heat creation
Many traditional light sources create a significant amount of heat to the environment and to the object under study. Furthermore, such light sources cannot easily be focused to the target and a lot of the illumination is not used as it goes beyond the region of interest. The light from CAVILUX lasers can be easily fiber-coupled and also focused with different optics. This enables the access to tight spaces which is not possible for other light sources. Furthermore, due to the possibility to generate light only when the camera is exposing, the heat generated by CAVILUX laser illumination is minimized. CAVILUX lasers are therefore an ideal solution for heat sensitive targets like paper webs and explosive environments such as liquid tanks in chemical process industry.
The image below shows the surface of a paper web. The high speed of the paper web and the high resolution require a powerful light sources with short pulses. Because paper is inflammable the light source needs to be cold.
Figure 3: Surface topography of a paper web imaged at 20 fps.
With CAVILUX lasers it is possible to create different illumination shapes to address the needs of different applications. In most front illumination applications a round uniform spot is used. The spot covers the area of interest and the spot size can be easily adjusted. In some cases the area of interest can be e.g. reduced in height and increased in width. With suitable optics the laser light can be shaped e.g. to an elongated ellipse to address the area of interest. It is also possible to create light sheets that are used e.g. in PIV (Particle Image Velocimetry) imaging. While diode lasers do not provide as high intensity as traditional PIV lasers do, they can be applied in some micro-PIV applications. CAVILUX laser illumination is also suitable for Schlieren and Shadowgraph applications. With multi-output light guides it is also possible to reduce unwanted reflection from shiny objects. Another benefit of lasers is the possibility to create various structures with active or passive lines. For example in the image below a pattern of shadow lines is shown. It can be used for triangulation measurements while the illuminated part of the image can reveal surface properties.
CAVILUX high power diode laser illumination provides many new applications in machine vision where traditional light sources cannot fulfill the requirements.
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