In [1]:

    

import numpy as np
import matplotlib.pyplot as plt
%matplotlib inline

from electronfactors import (
    new_reading, calc_and_display, energy_to_reference_depth, 
    initialise)


    

In [2]:

    

data = dict()


    

In [3]:

    

energy_to_reference_depth(6)


    

    
Out[3]:





array([13])

In [4]:

    

# Standard insert 10app 6MeV 100MU
np.mean([1.021, 1.022])


    

    
Out[4]:





1.0215000000000001

In [5]:

    

key = 'P7'

data = initialise(
    key=key, data=data,
    reference=1.021,
    energy=6
)

data = new_reading(
    key=key, data=data,
    ionisation=np.array([1.016, 1.016]),
    depth=13
)

data = new_reading(
    key=key, data=data,
    ionisation=np.array([1.011]),
    depth=12
)

data[key]['factor'] = calc_and_display(**data[key])


    

    













    




Cutout factor = 0.995 | -0.5%
Inverse factor = 1.005 | 0.5%

In [6]:

    

# Standard insert 10app 6MeV 100MU
np.mean([1.021, 1.020])


    

    
Out[6]:





1.0205

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