Difference between revisions of "Thesis"

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[[Media:Thesis Dissertation-Manual.pdf]]
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=Writing=
 
=Writing=
  
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[[OSLs]]
 
[[OSLs]]
  
=Introduction=
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[[Experimental Methods]]
  
Here, we use an old machine (allegedly known as “TRIMeV”) which fires short pulses of a butt-load of tiny little particles – most likely electrons – at supersonic speeds towards a measuring apparatus which is capable of profiling the flux of these particles on a plane perpendicular to the beam by means of a bunch of tiny weird OSL thingies.
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[[OSL Reader]]
  
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[[Radiation Dose Theory]]
  
TLDR: fuck it just skip this section and dive right in!
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[[OSL Data Analysis]]
  
=Theory=
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=[[Title Page]]=
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 necessary theory. 
 
  
==[[Related Papers/Links]]==
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=Table of Contents=
see above.
 
  
==[[TriMev_Simulations]]==
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=Introduction=
Literally fake news.
 
  
== Why does 114.5 R = 100 rad?==
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=[[Radiation Dose Theory]]=
This is why: [[Roentgen to Rad Conversion]]. Checkmate subsection ( ͡° ͜ʖ ͡°)
 
  
 +
===[[Related Papers/Links]]===
  
Note that 1Gy = 100 Rad
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===[[Deposited Energy Simulations]]===
  
 +
===[[TriMev_Simulations]]===
  
==[[Absorbed Dose Information]]==
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===Why does 114.5 R = 100 rad?===
 +
This is why: [[Roentgen to Rad Conversion]].
  
=Apparatus=
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Note that 1Gy = 100 Rad
  
==[[OSLs]]==
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-> important in calibration of OSLs
  
==Accelerators==
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===[[Absorbed Dose Information]]===
  
===TriMeV Description===
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=Apparatus=
  
[[Cathode Profile]]
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===[[OSLs]]===
  
==Detectors==
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Get pictures from experiment for experimental setup, etc
  
[[OSL Info]]
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==Nanodot Calibration==
 
 
===Nanodot Calibration===
 
  
 
====<math>^{137}\text{Cs Source}</math>====
 
====<math>^{137}\text{Cs Source}</math>====
  
 
[[Reproducibility with 137Cs]]
 
[[Reproducibility with 137Cs]]
 +
 +
[[Calibration Info]]
  
 
===[[First Board for Beam Profile]]===
 
===[[First Board for Beam Profile]]===
  
=Experimental Methods=
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==Accelerators==
==[[Linac Run Plan April 2018, Dr. McNulty]]==
 
  
Nothing below is final and will be changed.
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===25b Description===
  
=Date=
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=[[Experimental Methods and Setup]]=
 +
===[[May 31st 2018 - 25b 0 degree port]]===
  
85 useable OSLs
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=[[OSL Data Analysis]]=
  
Machine: 24b Linac
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==[[OSL Reader]]==
  
Beam Energy: 8 MeV
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-> Code used to create images and background subtraction
  
Rep Rate: Max (180Hz)?
 
  
:{| border="2" style="text-align:center;" |cellpadding="20" cellspacing="0
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[[File:Pulse_v_Dose_Fit.png]]
|-
 
| Shot # ||Start Time  || End Time || Number of OSLs || Distance to end of beampipe || Beam Current || Aluminum Brick || Background Subtracted PMT Counts
 
|-
 
| 1 ||7am || 7:15am || 1 || 25cm || amps || Out ||
 
|-
 
| 2 ||7:20am || 7:35am || 1 || 25cm || amps || Out ||
 
|-
 
| 3 || 7:40am || 7:55am || 1 || 25cm || amps || Out ||
 
|-
 
| 4 || 8:00 || 8:20 || 1 || 25cm || amps || Out ||
 
|-
 
| 5 || ||  || 1 || 25cm || amps || Out ||
 
|-
 
| 6 || ||  || 1 || 25cm || amps || In ||
 
|-
 
| 7 || ||  || 1 || 25cm || amps || In ||
 
|-
 
| 8 || ||  || 1 || 25cm || amps || In ||
 
|-
 
| 9 || ||  || 1 || 25cm || amps || In ||
 
|-
 
| 10 || ||  || 1 || 25cm || amps || In ||
 
|-
 
| 11 ||  ||  || 10 || 25cm || amps || Out ||
 
|-
 
| 12 ||  ||  || 10 || 25cm || amps || Out ||
 
|-
 
| 13 ||  ||  || 10 || 25cm || amps || Out ||
 
|-
 
| 14 ||  ||  || 10 || 25cm || amps || Out ||
 
|-
 
| 15 ||  ||  || 10 || 25cm || amps || Out ||
 
|-
 
| 16 ||  ||  || 10 || 25cm || amps || In ||
 
|-
 
| 17 ||  ||  || 15 || 25cm || amps || In ||
 
|-
 
|}
 
  
=Data Analysis=
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=Error Analysis=
Nothing to say here since good data analyzes itself, and my data is good af.
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[[Forest Error Analysis for the Physical Sciences]]
  
==[[OSL Reader]]==
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standard deviations and propagated errors
 
 
==[[TriMeV Shot Log]]==
 
  
=Error Analysis=
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error in OSL reader and OSLs (check manufacturer's paperwork)
[[Forest Error Analysis for the Physical Sciences]]
 
  
 
=Conclusion=
 
=Conclusion=

Latest revision as of 00:49, 30 January 2019

Media:Thesis Dissertation-Manual.pdf

Writing

Calibration Info

OSLs

Experimental Methods

OSL Reader

Radiation Dose Theory

OSL Data Analysis

Title Page

Table of Contents

Introduction

Radiation Dose Theory

Related Papers/Links

Deposited Energy Simulations

TriMev_Simulations

Why does 114.5 R = 100 rad?

This is why: Roentgen to Rad Conversion.

Note that 1Gy = 100 Rad

-> important in calibration of OSLs

Absorbed Dose Information

Apparatus

OSLs

Get pictures from experiment for experimental setup, etc

Nanodot Calibration

[math]^{137}\text{Cs Source}[/math]

Reproducibility with 137Cs

Calibration Info

First Board for Beam Profile

Accelerators

25b Description

Experimental Methods and Setup

May 31st 2018 - 25b 0 degree port

OSL Data Analysis

OSL Reader

-> Code used to create images and background subtraction


Pulse v Dose Fit.png

Error Analysis

Forest Error Analysis for the Physical Sciences

standard deviations and propagated errors

error in OSL reader and OSLs (check manufacturer's paperwork)

Conclusion


User:Harpconn