| ... | @@ -30,7 +30,7 @@ The sorter also requires information about the detector setup, which again shoul |
... | @@ -30,7 +30,7 @@ The sorter also requires information about the detector setup, which again shoul |
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The final stages of the analysis involve the extraction of physical information from the particle signals contained within the sorted ROOT file. AUSALIB contains functionality to assist with this in the form of **[analysers](Analyzers)**.
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The final stages of the analysis involve the extraction of physical information from the particle signals contained within the sorted ROOT file. AUSALIB contains functionality to assist with this in the form of **[analysers](Analyzers)**.
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The advantage of this approach is that the sorted root file may be read in together with the detector setup file. This gives access to the built in functionality of AUSALIB, which includes methods for calculating [energy losses](https://gitlab.au.dk/ausa/eloss/-/wikis/home), detector geometries etc. This approach also permits the setup to be defined once and then used throughout the entire analysis.
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The advantage of this approach is that the sorted root file may be read in together with the detector setup file. This gives access to the built in functionality of AUSALIB, which includes methods for calculating [energy losses](https://gitlab.au.dk/ausa/ausalib/-/wikis/eloss), detector geometries etc. This approach also permits the setup to be defined once and then used throughout the entire analysis.
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### *NEW*
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### *NEW*
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