Difference between revisions of "Measurements"
From OptoelectronicsWiki
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=== NanoScope AFM === | === NanoScope AFM === | ||
− | == Optical Characterization = | + | == Optical Characterization == |
== LI curves == | == LI curves == | ||
"Example:" This technique allows you to measure output power vs. injection current. The follwoing equipment is used: | "Example:" This technique allows you to measure output power vs. injection current. The follwoing equipment is used: | ||
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# Mr.X et al., IEEE Journ. of Lightwave Technol., vol. x, pp. xxx-xxx, Aug. 2005 | # Mr.X et al., IEEE Journ. of Lightwave Technol., vol. x, pp. xxx-xxx, Aug. 2005 | ||
# Our own uploaded description (in doc format maybe) | # Our own uploaded description (in doc format maybe) | ||
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= Electrical characterization = | = Electrical characterization = |
Revision as of 12:57, 29 July 2010
Contents
Materials Characterization
Atomic Force Microscopy (AFM)
CNSI has a room devoted to AFM including 2 models Asylum and NanoScope. Contact Mark Cornish <cornish@engineering.ucsb.edu> to get tips and register. The cleanroom also has a NanoScope AFM.
Asylum AFM
NanoScope AFM
Optical Characterization
LI curves
"Example:" This technique allows you to measure output power vs. injection current. The follwoing equipment is used:
- Keithley (link to equipment)
- Agilent powermeter (link)
The measurement can be controlled using this (link) software. A sample plot looks like this: (insert picture). More about this technique can be found in:
- Mr.X et al., IEEE Journ. of Lightwave Technol., vol. x, pp. xxx-xxx, Aug. 2005
- Our own uploaded description (in doc format maybe)
Electrical characterization
Analysis: http://gwyddion.net/download.php#stable-osx
Microwave measurements
Linearity measurements (OIP2, OIP3, SFDR,...)