A 3D photo crystal is a digital photographic device that can be used to create two dimensional images from the motion of light. This device is used to create three dimensional pictures or photos in many different formats.
The easiest way to understand how a 3D photo crystal works is to compare it to using a standard digital camera. While it is true that with a camera, there is still some light, but it is the camera’s ability to capture and transmit that light that makes the photos look real. Now picture this: you’re on a trip and your friends take their cameras with them and they place the camera near you to capture your face as you smile or frown.
At first, this might seem to be perfectly normal, but as the images are created, you will notice that the person’s face seems to be moving. This is because the image sensor is capturing the energy of the light that strikes the sensor. After capturing an image, the light is then sent to the computer where the photos are stored.
Since the light strikes the crystal, the image can be stored in two different ways. In one way, the image is stored as a solid black image. Another way the crystal is able to store the image is by storing the light data at a much slower rate.
As light enters the crystal, it is either absorbed or reflected into a portion of the crystal containing the image data. For instance, if the light is reflected from a plane of the crystal, the energy of the reflected light is recorded in the crystal and is stored as an image. If the image is absorbed, the light is reflected from the surface of the crystal and only the light that was absorbed from the image sensor is stored.
Although there is some light, there is still some data stored in the digital camera. This means that the image that is stored in the crystal is not static, rather, it is constantly changing as the light strikes the crystal.
When the crystal is placed next to the camera, the light will be captured by the camera and sent to the crystal. Once the light is captured by the 3d photo crystal, the crystal’s electron beam will move into a section of the crystal containing the image data and this creates the image.
There are a number of different types of crystals that can be used to create a 3D image. These include the use of silicon, magnesium, and glass. The last one used most often is the boron nitride.