With the tremendous development that we are witnessing today in the industry of high-precision cameras and speed, has been developing very fast cameras can capture millions of images per second, which is used especially in the field of research as quantum physics and the study of science movement and so on.
In this context, we find various students and scholars of major universities in the world are competing to develop and manufacture faster and better camera adoption of techniques and studies very precise, it is imperative that you saw a documentary describes and explains how the explosion occurred given and the adoption of imaging techniques is very slow, based on the thousands of pictures taken it in a second, but when I hear about 4.4 trillion frames per second is something chilling.
In this post we'll look at the fastest camera in the world, and we will leave to the planet Japan, where it was the launch of a huge project by scientists at Tokyo University and Keio University to create a camera "miraculous" can capture 4.4 trillion (4.4 trillion) images per second! The thing that will make it possible to see what was not seen by humans before, such as a video camera describes the millions of parts from the second occurrence of the phenomenon of lightning, or capture the movement of the fastest bird in the world, where the movement will become very very slow to make it easier for scientists and researchers to study this type of movement.
These scientists have developed private room special for camera (large size up to 1 meter), where they can study received act of samples of chemical or biological weapons in a very accurate image, and this technique has been named STAMP short for (Sequentially Timed All-optical Mapping Photography) where up accuracy current 450 * 450 pixels. So, this camera is a faster thousand times than high-speed cameras that are currently available.
Keisuke Goda professor of chemistry at the Tokyo University says that one of the participants in the project, that in the year 2007 they talked about 95 thousand frames per second, and in 2009 the number jumped to reach six million frames per second, up to what it is now something that took three years of development, and we expected that there are practical applications in various fields within the next two years in the fields of Health and laser therapy and ultrasound, also will be a powerful tool for scientists, working on the photochemistry (photochemistry) and quantum physics and plasma (plasma physics) and electrons axial (spintronics), waiting for the development of equipment and techniques currently used by the camera to become smaller and lighter.
