Difference between revisions of "Thesis"
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=Theory= | =Theory= | ||
| + | For the sake of brevity and elegance, the reader is referred to the internet, where in due time, he or she can find a fantastically large supply of papers pertaining to this study, some of which may contain content covering the relevant theory. GLHF. | ||
==[[Related Papers/Links]]== | ==[[Related Papers/Links]]== | ||
| + | see above. | ||
==[[TriMev_Simulations]]== | ==[[TriMev_Simulations]]== | ||
| + | TBA. | ||
== Why does 114.5 R = 100 rad?== | == Why does 114.5 R = 100 rad?== | ||
This is why: [[Roentgen to Rad Conversion]] | This is why: [[Roentgen to Rad Conversion]] | ||
| + | |||
| + | Check mate. | ||
=Apparatus= | =Apparatus= | ||
Revision as of 06:57, 21 February 2018
Writing
Introduction
Here, a machine (which is allegedly known as “TRIMeV”) is used to fire a beam consisting of a butt-load of tiny little charged particles – most likely electrons – that travel at supersonic speeds towards a measuring apparatus that is capable of profiling the beam's intensity over a beam-perpendicular plane by means of a lot of weird tiny OSL thingies.
TLDR: fuck it just skip this section and dive right in!
Theory
For the sake of brevity and elegance, the reader is referred to the internet, where in due time, he or she can find a fantastically large supply of papers pertaining to this study, some of which may contain content covering the relevant theory. GLHF.
Related Papers/Links
see above.
TriMev_Simulations
TBA.
Why does 114.5 R = 100 rad?
This is why: Roentgen to Rad Conversion
Check mate.
Apparatus
OSLs
Accelerators
TriMeV Description
Detectors
Nanodot Calibration
First Board for Beam Profile
Experimental Methods
Here I discuss how I used the experimental apparatus, as described in the preceding section, to make all these damn measurements!