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40 lines
4.0 KiB
Markdown
40 lines
4.0 KiB
Markdown
# MASK: Monte cArlo Simulation of Kinematics
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MASK is a Monte Carlo simulation of reaction kinematics intended for use with the Super-Enge Split-pole Spectrograph (SESPS) at Florida State University.
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MASK is capable of simulating multi-step reaction-decay sequences, however in a purely kinematic sense, as it currently has no quantum mechanical input (this
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is planned to be added in the next version). It is also capable of testing detector efficiency; this version contains the methods necessary to simulate the efficiency
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of a reaction into the Silicion Array for Branching Ratio Detectors (SABRE) as well as ANASEN.
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## Building MASK
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Dowload the repository from github. The code is to be built using Premake5, an open source and free project building software. To build on Linux and MacOSX run
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`premake5 gmake2`
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to generate the makefiles. Then execute
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`make`
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to build the program. To build on Windows run
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`premake5 vs20xx`
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where xx should be replaced with your version of Visual Studio, and then build as a normal Visual Studio project. For more documentation see the Premake wiki.
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NOTE: For Windows, ROOT is linked using the global envrionment variable ROOTSYS. If you do not have ROOTSYS set, Premake will not be able to properly link and include all of the ROOT libraries.
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## Running MASK
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By default MASK is capable of simulating reactions of up to three steps. Here is a brief outline of each type:
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0. A reaction of type 0 is a pure decay. It is assumed isotropic by default; any other case will require the modification of the code.
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1. A reaction of type 1 is a pure reaction. It can incorporate all of the input file sampling parameters.
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2. A reaction of type 2 is a reaction followed by a subsequent decay of the residual nucleus. Again, all sampling is allowed.
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3. A reaction of type 3 is a reaction followed by a subsequent decay of the residual, followed by a decay of one of the products. Again, all sampling is allowed
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For decays, a specific angular distribution can be given as input as a text file with values of coefficiencts of a Legendre polynomial series. Examples can be found in the `./etc` directory, including an isotropic case. It is assumed that the decays in the center-of-mass frame are isotropic in phi (i.e. m=0). Decay1 corresponds to the first decay, if there are multiple steps, Decay2 to the second. If there are no decays, these parameters are not used (or if only one decay, Decay2_AngularMomentum is not used). The input file requires that the user include target information, which will be used to calculate energy loss for all of the reactants and reaction products. The target can contain layers, and each layer can be composed of a compound of elements with a given stoichiometry. If the user wishes to not include energy loss in the kinematics, simply give all target layers a thickness of 0. Note that more layers and more thickness = more time spent calculating energy loss. These energy loss methods are only applicable for solid targets, and should not be applied to gas or liquid targets. Energy loss calculations have a stated uncertainty of approximately five percent.
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The default MASK program includes a calculation of SABRE efficiency, whose methods are contained in the SabreEfficiency and SabreDetector classes. This can be disabled by modifying the main.cpp file appropriately. It also has the classes for calculating ANASEN efficiency. More detector classes can be added following the format outlined by these two examples.
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In the input file the user also has the option to select to save the ROOT tree of the simulated data and the default plots. The options are yes or no. Yes saves them, no doesn't.
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To run MASK simply do the following from the MASK directory:
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`./bin/mask input.txt`
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Input.txt can be replaced by any text file with the correct format.
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## Requirements
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MASK requires that ROOT is installed for data writting and visualization, as well as for random number generation. Testing has been done only on ROOT 6. Mileage on all other ROOT versions will vary.
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Currently supports MacOSX and Linux. Windows is in a beta stage. |