| ... | @@ -657,7 +657,7 @@ for the type of coordinate system. |
... | @@ -657,7 +657,7 @@ for the type of coordinate system. |
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isotropic conduction).
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isotropic conduction).
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- `_C.conduction_coeff_sat` (typical value: 0.3): parameter *Ψ* in
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- `_C.conduction_coeff_sat` (typical value: 0.3): parameter *Ψ* in
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the saturation heat flux model of (cf. physics guide
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the saturation heat flux model of \[CM77\] (cf. physics guide
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[Wiki](https://gitlab.aip.de/ziegler/NIRVANA/-/wikis/C-NumericsGuide),
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[Wiki](https://gitlab.aip.de/ziegler/NIRVANA/-/wikis/C-NumericsGuide),
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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/doc/pdf/NumericsGuide.pdf)).
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| ... | @@ -1004,7 +1004,7 @@ Here, the IC for the Orszag-Tang problem (example 1) and a shock-cloud |
... | @@ -1004,7 +1004,7 @@ Here, the IC for the Orszag-Tang problem (example 1) and a shock-cloud |
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interaction problem (example 2) are presented as examples. Both are MHD
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interaction problem (example 2) are presented as examples. Both are MHD
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problems.
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problems.
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**Example 1** (taken from `/nirvana/testproblems/MHD/problem2`; cf. )
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**Example 1** (taken from `/nirvana/testproblems/MHD/problem2`; cf. \[Zie04\])
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IC for the Orszag-Tang problem simulated in a doubly-periodic square
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IC for the Orszag-Tang problem simulated in a doubly-periodic square
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domain of length *L* (given by `_C.up[0]-_C.lo[0]`):
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domain of length *L* (given by `_C.up[0]-_C.lo[0]`):
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| ... | @@ -1085,7 +1085,7 @@ permeability *μ*=1. |
... | @@ -1085,7 +1085,7 @@ permeability *μ*=1. |
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Example 1 uses the macro `SPQR(a,b,c)` which shortcuts the algebraic
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Example 1 uses the macro `SPQR(a,b,c)` which shortcuts the algebraic
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expression *a*<sup>2</sup> + *b*<sup>2</sup> + *c*<sup>2</sup>.
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expression *a*<sup>2</sup> + *b*<sup>2</sup> + *c*<sup>2</sup>.
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**Example 2** (taken from `/nirvana/testproblems/MHD/problem17`; cf. )
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**Example 2** (taken from `/nirvana/testproblems/MHD/problem17`; cf. \[Zie05\])
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IC for the shock-cloud interaction problem simulated in a Cartesian box
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IC for the shock-cloud interaction problem simulated in a Cartesian box
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given by (*x*, *y*, *z*) ∈ \[ − 1/2, 1/2\]<sup>3</sup>:
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given by (*x*, *y*, *z*) ∈ \[ − 1/2, 1/2\]<sup>3</sup>:
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| ... | @@ -2090,6 +2090,12 @@ values (given in brackets). |
... | @@ -2090,6 +2090,12 @@ values (given in brackets). |
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*ε*(𝜚) as a function of 𝜚 in cases without energy equation.
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*ε*(𝜚) as a function of 𝜚 in cases without energy equation.
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Otherwise identity.
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Otherwise identity.
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**References**
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[CM77] L.L. Cowie and C.F. McKee. In: ApJ 211 (1977), p. 135.
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[Zie04] U. Ziegler. In: JCoPh 196 (2004), p. 393. doi: 10.1016/j.jcp.2003.11.003.
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[Zie05] U. Ziegler. In: CoPhC 170 (2005), p. 153. doi: 10.1016/j.cpc.2005.04.002.
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PREV: [3.1 Code basics](3.1-Code-basics) NEXT: [3.3 Output data](3.3-Output-data) |
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PREV: [3.1 Code basics](3.1-Code-basics) NEXT: [3.3 Output data](3.3-Output-data) |
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\ No newline at end of file |
