The holographic imaging done on the TV show “Bones” is real and is process called Photogrammetry. It is 3D imaging process that uses laser photography to gather tiny points of data that traditional cameras cannot to capture.
To make a 3D holographic pyramid, you will need a clear plastic material like acrylic or plexiglass, a smartphone or tablet, a holographic pyramid template, and a holographic video or image. First, cut the plastic material into a pyramid shape using the template. Place the pyramid on top of your device with the video/image playing underneath. The pyramid will reflect the image, creating a 3D holographic effect.
Holographic laser light can be beneficial for certain scientific applications, such as 3D imaging and interference patterns. However, its suitability depends on the specific experiment or research being conducted. Scientists may utilize holographic laser light when it offers advantages over other light sources for their particular needs.
Holographic Pokmon cards are made using a special printing process that involves applying a thin layer of holographic material onto the card. This material reflects light in a way that creates a 3D effect, giving the card its distinctive holographic appearance.
3D holographic displays work by projecting light onto a special screen or medium to create the illusion of three-dimensional objects. This is typically done using a combination of lasers, mirrors, and diffraction patterns to produce the desired holographic effect. The light is manipulated and controlled to create different perspectives of the object being displayed, resulting in a realistic 3D image that can be viewed from multiple angles.
Creating a holographic projector at home involves using a clear plastic or glass pyramid shape and a smartphone or tablet to project images onto the pyramid. By placing the device on top of the pyramid and playing a specially designed holographic video, the images will be reflected and create a 3D holographic effect.
Kenneth J. Dunkley did not invent 3D glasses; he invented the Three-Dimensional Viewing Glasses called "3-D holographic viewing apparatus." His invention aimed to improve 3D viewing experiences by creating more realistic holographic images using a combination of color filters and lenses.
It is not "spec" imaging but SPECT (single proton emission computed tomography) imaging. It uses gamma rays and provides a true 3D image.
I think you mean Holo (holographic). Which in that case, it should look shiny or 3D.
Emerson H. Duke has written: '3D imaging' -- subject(s): Three-dimensional imaging in medicine, Industrial applications, Three-dimensional imaging in biology, Three-dimensional imaging
Your eyes and brain form an interferometer, allowing for 3D imaging.
You can find information on laser imaging on websites dealing with laser scanning and holography. Depending on whether you are interested in 3d imaging or printer (2d) you will have to choose accordingly.