... | ... | @@ -32,13 +32,13 @@ It implements the following physics system: |
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The physical processes and their underlying equations are described in
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more detail in the physics guide
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/doc/pdf/PhysicsGuide.pdf)).
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/-/tree/master/doc/pdf/PhysicsGuide.pdf)).
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The multi-species advection framework is complemented by the NIRVANA
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Chemistry&Cooling Model (NCCM) – a comprehensive network of chemical
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reactions and microphysical processes designed to model the interstellar
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medium (ISM). The NCCM is described in the chemistry guide
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/doc/pdf/ChemistryGuide.pdf)).
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/-/tree/master/doc/pdf/ChemistryGuide.pdf)).
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In full generality the multi-physics, multi-species system is governed
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by hyperbolic-parabolic-elliptic Partial Differential Equations (PDE)
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... | ... | @@ -48,7 +48,7 @@ NCCM. This highly complex system demands for robust numerical schemes |
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and time integrators for the different mathematical parts of the
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equations. The numerical methods applied in the NIRVANA code are
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documented in the numerics guide
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/doc/pdf/NumericsGuide.pdf)).
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([PDF](https://gitlab.aip.de/ziegler/NIRVANA/-/tree/master/doc/pdf/NumericsGuide.pdf)).
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#### Coordinate systems
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