Difference between revisions of "Optical microscopy"
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==Technologies== | ==Technologies== | ||
===Optical Microscopy=== | ===Optical Microscopy=== | ||
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| + | The details of optical microscopy can be found in the well known work by Davidson and Abramowitz<ref>https://micro.magnet.fsu.edu/primer/pdfs/microscopy.pdf</ref> as well as in Olympus<ref>http://olympus.magnet.fsu.edu/</ref> and Nikon Microscopy U<ref>http://www.microscopyu.com/tutorials/</ref>. | ||
===Fluorescent Microscopy=== | ===Fluorescent Microscopy=== | ||
Revision as of 13:58, 22 February 2016
Optical microscopy is...
In order to image and measure objects in the micron range it is necessary the use of a microscope. Microscope technology has advanced tremendously with the
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| Optical microscopy | |
|---|---|
 | |
| Technology Details | |
| Other Names | Epi-fluorescense |
| Technology | Optical Microscopy |
| Equipment | Olympus BX51, Nikon Eclipse LV150, Nikon MM-40, Nikon AZ100 Multi zoom, |
| Materials | wafers, devices, cells, materials, |
Contents
Technologies
Optical Microscopy
The details of optical microscopy can be found in the well known work by Davidson and Abramowitz[1] as well as in Olympus[2] and Nikon Microscopy U[3].
Fluorescent Microscopy
Describe the technology, particularly including why you might use it over another within the same group.
Infrared Microscopy
Here's another technology in that group.
Figures of Merit
- Magnification
- Sharpness
- Numerical Aperture
- Contrast
- light source
Applications
How is this technology used in nanofabrication and what types of devices/research areas is it useful in?
Equipment
Specific equipment for each technology can be found on its page above. Additionally, below is a list of all metrology equipment in the LNF:
Olympus BX 51 Fluorescent Microscope
Olympus IR Microscope
See also
Other related wiki pages
References
Further reading
- Other stuff, e.g. technology workshop slides
- External links (can be in another section below, if appropriate)
