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AmBe_efficiency_on_endcap_withW_near

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simulation_output
simulation_output
 
 
Analysis_GeSim_AmBe_with_outer_W_endcap_near_total_efficiency.ipynb
Analysis_GeSim_AmBe_with_outer_W_endcap_near_total_efficiency.ipynb
 
 
Detected_energy_AmBe_1000keV_endcap_vs_primary.png
Detected_energy_AmBe_1000keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_1250keV_endcap_vs_primary.png
Detected_energy_AmBe_1250keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_1500keV_endcap_vs_primary.png
Detected_energy_AmBe_1500keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_2000keV_endcap_vs_primary.png
Detected_energy_AmBe_2000keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_208keV_endcap_vs_primary.png
Detected_energy_AmBe_208keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_2500keV_endcap_vs_primary.png
Detected_energy_AmBe_2500keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_3000keV_endcap_vs_primary.png
Detected_energy_AmBe_3000keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_323keV_endcap_vs_primary.png
Detected_energy_AmBe_323keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_332keV_endcap_vs_primary.png
Detected_energy_AmBe_332keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_335keV_endcap_vs_primary.png
Detected_energy_AmBe_335keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_3500keV_endcap_vs_primary.png
Detected_energy_AmBe_3500keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_368keV_endcap_vs_primary.png
Detected_energy_AmBe_368keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_376keV_endcap_vs_primary.png
Detected_energy_AmBe_376keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_4438keV_endcap_vs_primary.png
Detected_energy_AmBe_4438keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_512keV_endcap_vs_primary.png
Detected_energy_AmBe_512keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_653keV_endcap_vs_primary.png
Detected_energy_AmBe_653keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_662keV_endcap_vs_primary.png
Detected_energy_AmBe_662keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_722keV_endcap_vs_primary.png
Detected_energy_AmBe_722keV_endcap_vs_primary.png
 
 
Detected_energy_AmBe_921keV_endcap_vs_primary.png
Detected_energy_AmBe_921keV_endcap_vs_primary.png
 
 
Efficiency_curve_endcap_withW_near.png
Efficiency_curve_endcap_withW_near.png
 
 
README.md
README.md
 
 

README.md

Python code to estimate detection efficiency at different energies for AmBe in outer tungsten capsule centered on GeIII endcap face in near orientation.

python version: Python 3.10.10

jupyter version:

IPython          : 8.14.0

ipykernel        : 6.24.0

ipywidgets       : not installed

jupyter_client   : 8.3.0

jupyter_core     : 5.3.1

jupyter_server   : 2.7.0

jupyterlab       : 4.0.3

nbclient         : 0.8.0

nbconvert        : 7.6.0

nbformat         : 5.9.1

notebook         : 6.5.4

qtconsole        : not installed

traitlets        : 5.9.0

matplotlib version: 3.7.2

numpy version: 1.25.1

pandas version 2.0.3

scipy version 1.11.1

iminuit version 2.22.0

Author: Mariia Fedkevych, mariia.fedkevych@gmail.com

  1. Download and open Analysis_GeSim_AmBe_with_outer_W_endcap_near_total_efficiency.ipynb as a jupyter notebook. Give a correct path to the output simulation .root file produced by the code in AmBe_GeSim_efficiency (of AmBe source in the outer tungsten capsule centered on the endcap face of GeIII in near orientation), and run the code.

  2. It will produce a spectrum histogram for each gamma energy simulation with a zoomed region of the detected peak at this energy and count the number of events in this peak, the plot and fit the detection efficiency curve corresponding to this geometry.