This research paper addresses the issue that when it comes to today's science in microscopy that when it comes to the application of viewing or imaging a biological specimen that today's microscopy technology and instrumentation are very limited. For example ; when viewing or imaging a cell no matter what type of microscopy technology it is such as light, florescent, optical, compound, electron, AFM,-(Atomic Force Microscopes), (any other microscopy) and even the newest technology in microscopy known as  : "Virtual Optical Imaging At (50) -(nm) " microscopy system, that was introduced very recently in about march, 2011, all of these are only capable of viewing or imaging the surface of a cell at about 700-nm and rarely best at 200-nm-(nanometers) and not any of these microscopy technologies (even this latest one) cannot view or image the sub-cellular components, cavities, or structure of a cell or any biological specimen. Although the : "Virtual Optical Imaging At (50) -(nm) " microscopy system was able to view and image to some degree an only an : " Object " at a maximum size of (50) - nm). However, the author of this research paper has also invented a new microscopy and imaging system known as : "IMMI . Which is the acronym for : - (Infinite Microscopic to Macroscopic Imaging). IMMI will not only image an : " Object " at (50) nm, but will also break this record and will view and image objects and anomalies as  small as (0.33) of (1) nm-(nanometer). Although the IMMI system could view and image objects and anomalies at much smaller microscopic measurements scale sizes, being able to attain a size of (0.33) of (1) nm, is still over fifty times smaller than what the newest : "Virtual Optical Imaging At (50) -(nm) " microscopy system was able to attain.

Keywords ; Microscopes, Microscopy, Photography, Microscopic Microsgraphs, Imaging


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