Shaping core dynamos in A-type stars: The role of dipolar fossil fields

Open Access

Table 2.

Kinetic and magnetic energies.

Run	E_kin [10³³ J]	E_kin^DR/E_kin	E_kin^MC/E_kin	E_mag [10³³J]	E_mag^tor/E_mag	E_mag^pol/E_mag	E_mag/E_kin
Convective core
MHDr2	8.88	0.346	0.026	1.74	0.140	0.097	0.196
DipA	8.60	0.321	0.025	1.72	0.109	0.143	0.200
DipAt	8.65	0.336	0.024	1.64	0.114	0.137	0.190
DipAt2	8.78	0.343	0.024	1.72	0.130	0.119	0.196
DipAh	9.48	0.369	0.028	1.66	0.137	0.096	0.176
DipB*	2.70	0.082	0.029	13.77	0.102	0.342	5.105
DipBt*	2.63	0.108	0.027	13.77	0.147	0.303	5.229
DipBt2*	3.24	0.055	0.021	9.34	0.104	0.290	2.879
DipBt3*	4.20	0.045	0.014	6.36	0.077	0.212	1.514
DipBt4*	4.57	0.035	0.014	5.19	0.071	0.173	1.135
DipBh*	9.77	0.358	0.025	1.35	0.108	0.089	0.138
DipB	2.92	0.063	0.024	11.40	0.115	0.324	3.906
DipBt	3.11	0.055	0.024	10.04	0.115	0.310	3.229
DipBt2	3.72	0.050	0.017	7.78	0.079	0.241	2.092
DipBh	9.72	0.370	0.027	1.48	0.134	0.104	0.152

Radiative envelope

MHDr2	32.37	0.470	0.006	16.08	0.378	0.041	0.497
DipA	25.54	0.355	0.007	52.14	0.460	0.119	2.042
DipAt	25.65	0.360	0.007	46.38	0.427	0.074	1.808
DipAt2	27.28	0.399	0.006	37.99	0.376	0.092	1.393
DipAh	31.47	0.453	0.007	21.60	0.303	0.035	0.686
DipB*	9.00	0.129	0.005	89.82	0.165	0.220	9.983
DipBt*	9.47	0.175	0.005	91.13	0.211	0.170	9.628
DipBt2*	8.89	0.088	0.003	61.65	0.175	0.114	6.932
DipBt3*	10.49	0.061	0.003	46.78	0.108	0.047	4.460
DipBt4*	11.75	0.046	0.003	41.71	0.109	0.036	3.550
DipBh*	27.39	0.368	0.008	32.96	0.163	0.024	1.203
DipB	8.63	0.107	0.004	70.46	0.224	0.151	8.169
DipBt	8.74	0.088	0.004	68.53	0.184	0.125	7.840
DipBt2	9.24	0.070	0.003	52.21	0.145	0.074	5.651
DipBh	29.75	0.412	0.007	32.13	0.257	0.037	1.080

Notes. The total kinetic energy is $E_{kin} = \frac{1}{2} \int ρ U^{2} d V$ $E_{\mathrm{kin}} = \frac{1}{2} \int \rho \boldsymbol{U}^2 dV$ . The energies for the differential rotation (DR) and meridional circulation (MC), are $E_{kin}^{DR} = \frac{1}{2} \int ρ {\bar{U}}_{ϕ}^{2} d V$ $E_{\mathrm{kin}}^{\mathrm{DR}} = \frac{1}{2} \int \rho \overline{U}_\phi^2 dV$ and $E_{kin}^{MC} = \frac{1}{2} \int ρ ({\bar{U}}_{ϖ}^{2} + {\bar{U}}_{z}^{2}) d V$ $E_{\mathrm{kin}}^{\mathrm{MC}} = \frac{1}{2} \int \rho (\overline{U}_\varpi^2 + \overline{U}_z^2) dV$ , respectively. The total magnetic energy is $E_{mag} = \frac{1}{2 μ_{0}} \int B^{2} d V$ $E_{\mathrm{mag}} = \frac{1}{2\mu_0} \int \boldsymbol{B}^2 dV$ , and the toroidal and poloidal magnetic energies are $E_{mag}^{tor} = \frac{1}{2 μ_{0}} \int {\bar{B}}_{ϕ}^{2} d V$ $E_{\mathrm{mag}}^{\mathrm{tor}} = \frac{1}{2\mu_0} \int \overline{B}_\phi^2 dV$ and $E_{mag}^{pol} = \frac{1}{2 μ_{0}} \int ({\bar{B}}_{ϖ}^{2} + {\bar{B}}_{z}^{2}) d V$ $E_{\mathrm{mag}}^{\mathrm{pol}} = \frac{1}{2\mu_0} \int (\overline{B}_\varpi^2 + \overline{B}_z^2) dV$ , respectively. The energies are averaged over time and integrated over the convective core and the radiative envelope. The total kinetic and magnetic energies are given in units of 10³³J.

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