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| Rorivaldo de Camargo, Brazil, 2011 |
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Anthill -1023 viewsThe image was obtained in black and white and colored by an editor.
Contained in a vacuum, electron microscopy utilizes an illumination system which produces a beam of high energy electrons that are reflected off the target and are received by a scintillation tube and interpreted to produce greatly expanded images (up to a million times). Previously, targets could only be magnified 2000 times with a standard light microscope. Overcoming this barrier provided a launching pad for nanometric research.
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Fluorescent Starfish-990 viewsThe image was obtained in black and white and colored by an editor.
Contained in a vacuum, electron microscopy utilizes an illumination system which produces a beam of high energy electrons that are reflected off the target and are received by a scintillation tube and interpreted to produce greatly expanded images (up to a million times). Previously, targets could only be magnified 2000 times with a standard light microscope. Overcoming this barrier provided a launching pad for nanometric research.
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Nanoweb-969 viewsThe seed image was colored by an editor.
Contained in a vacuum, electron microscopy utilizes an illumination system which produces a beam of high energy electrons that are reflected off the target and are received by a scintillation tube and interpreted to produce greatly expanded images (up to a million times). Previously, targets could only be magnified 2000 times with a standard light microscope. Overcoming this barrier provided a launching pad for nanometric research.
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Spirals-944 viewsThe image was obtained in black and white and colored by an editor.
Contained in a vacuum, electron microscopy utilizes an illumination system which produces a beam of high energy electrons that are reflected off the target and are received by a scintillation tube and interpreted to produce greatly expanded images (up to a million times). Previously, targets could only be magnified 2000 times with a standard light microscope. Overcoming this barrier provided a launching pad for nanometric research.
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Sunflower-946 viewsThe image was obtained in black and white and colored by an editor.
Contained in a vacuum, electron microscopy utilizes an illumination system which produces a beam of high energy electrons that are reflected off the target and are received by a scintillation tube and interpreted to produce greatly expanded images (up to a million times). Previously, targets could only be magnified 2000 times with a standard light microscope. Overcoming this barrier provided a launching pad for nanometric research.
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