Four-dimensional volume-holographic microscope reveals aliens life forms that are normally invisible in traditional methods – extraterrestrial life in forms unimaginable to us?
India Daily Technology Team
Oct. 26, 2005

Volume-holographic optical imaging instrument with the capability to return three-dimensional spatial as well as spectral information about semi-translucent microscopic objects in a single measurement is in use in different parts of the world for the last three years. The four-dimensional volume-holographic microscope is characterized theoretically and experimentally by use of fluorescent micro-spheres as objects.

According to some scientists working under classified projects these special instruments are revealing secrets of the nature that can be totally bizarre to our knowledge of science and technology.

These four-dimensional volume-holographic optical imaging instrument with the capability to return three-dimensional spatial as well as spectral information about semi-translucent microscopic objects in a single measurement is revealing possibilities of existence of life forms that is invisible and unimaginable in traditional methods.

Scientists now believe that life forms can exist in forms that is totally unimaginable in the 3-D Physical Universe realm.

Classical imaging systems process the optical field by use of elements such as lenses, apertures and stops, and thin diffraction gratings. By placing several such elements in tandem, one can capture projections of very general objects, e.g., containing three-dimensional (3D) spatial as well as spectral information. Such objects are envisioned as four-dimensional (4D) and simulate 4-dimensional objects as would have been seen in the Hyperspace. The projections that these systems are capable of forming are two-dimensional (2D) or lower; scanning is needed to span the entire 3D or 4D object space. For example, a classical con-focal microscope uses a combination of objective –collector lenses and a pinhole to capture information about a single point in the object and acquire a zero dimensional projection at every measurement. Scanning along three dimensions is needed to acquire the 3D spatial structure of the object. By providing spectral scanning means one can also acquire spectral information, in a very time-consuming procedure. Optical coherence tomography requires only 3D scanning for capturing spatial information, whereas spectral information is recovered digitally from the phase of the correlation function of the optical beam.

The 4-D imaging systems are actually capable of providing the scientists a convoluted glimpse at the many-dimensional Hyperspace – the fourth virtual dimension.

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