Eccentric binaries: Periastron events and tidal heating

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Table A.1.

Turbulent viscosity ten layer models.

Model	β₀	V_rot	$⟨ {\dot{E}}_{tot} ⟩$ $\langle \dot{E}_{tot}\rangle$	log⟨ν/ $R_{⊙}^{2}$ $R^2_\odot$ /d⟩
				Periastron					Apastron
				k=2	k=4	k=6	k=8	k=10	k=2	k=4	k=6	k=8	k=10

e=0.1 P=6 d

201	0.20	11	7.61e-1	-3.20	-2.86	-2.72	-2.29	-1.17	-3.20	-2.89	-2.72	-2.78	-1.96
202	0.40	22	2.26e-1	-3.60	-3.03	-2.86	-2.43	-1.36	-3.59	-3.03	-2.84	-2.97	-1.94
203	0.60	34	4.78e-2	-3.81	-3.33	-3.02	-2.62	-1.50	-4.18	-3.32	-3.02	-3.12	-2.28
204	0.80	45	4.19e-3	-3.80	-3.95	-3.64	-2.92	-1.81	-4.59	-4.20	-3.64	-3.37	-1.97
205	0.88	49	2.48e-3	-3.87	-4.35	-3.66	-3.12	-1.91	-4.76	-4.50	-3.81	-3.21	-1.87
206	0.95	53	4.19e-3	-3.84	-4.04	-3.36	-3.33	-2.10	-4.74	-4.06	-3.36	-3.09	-1.83
207	1.00	56	8.78e-3	-3.85	-3.78	-3.21	-3.26	-2.21	-4.85	-3.78	-3.21	-2.99	-1.78
208	1.05	59	1.48e-2	-3.86	-3.56	-3.12	-3.17	-2.35	-4.61	-3.55	-3.12	-2.93	-1.73
209	1.20	67	6.32e-2	-3.86	-3.19	-2.94	-2.96	-1.96	-4.10	-3.19	-2.94	-2.79	.1.61
210	1.40	79	2.69e-1	-3.44	-2.95	-2.78	-2.67	-1.61	-3.43	-2.95	-2.78	-2.64	-1.47
211	1.60	90	8.33e-1	-3.12	-2.81	-2.68	-2.49	-1.40	-3.11	-2.81	-2.68	-2.52	-1.36
212	1.88	105	3.01	-2.88	-2.66	-2.56	-2.29	-1.18	-2.88	-2.66	-2.57	-2.36	-1.18
213	1.95	109	4.20	-2.83	-2.63	-2.54	-2.25	-1.12	-2.83	-2.63	-2.54	-2.32	-1.13

e=0.3 P=8.73 d

301	0.20	13	6.61e-1	-3.55	-3.02	-2.83	-2.14	-1.09	-3.54	-3.02	-2.85	-2.77	-1.61
302	0.40	27	1.81e-1	-4.16	-3.42	-3.12	-2.29	-1.27	-4.15	-3.42	-3.12	-3.14	-1.70
303	0.60	40	5.28e-2	-4.22	-3.85	-3.35	-2.46	-1.35	-4.40	-4.14	-3.73	-3.24	-1.63
304	0.80	53	2.47e-2	-4.29	-3.88	-3.26	-2.66	-1.51	-4.40	-3.88	-3.26	-3.29	-1.49
305	0.88	59	1.58e-2	-4.46	-3.88	-3.30	-2.90	-1.75	-4.54	-3.86	-3.30	-3.23	-1.40
306	0.95	63	4.21e-4	-4.37	-4.42	-4.00	-3.92	-2.40	-4.55	-4.21	-3.73	-3.81	-1.30
307	1.00	67	2.34e-2	-4.47	-3.61	-3.18	-3.32	-2.02	-4.44	-3.60	-3.18	-3.03	-1.32
308	1.05	70	2.66e-2	-4.48	-3.56	-3.16	-3.43	-2.13	-4.27	-3.55	-3.16	-2.98	-1.29
309	1.20	80	5.80e-2	-4.25	-3.32	-3.03	-2.97	-1.86	-4.26	-3.32	-3.03	-2.96	-1.22
310	1.40	93	2.02e-1	-3.74	-3.06	-2.86	-2.62	-1.53	-3.72	-3.06	-2.86	-2.84	-1.14
311	1.60	107	7.18e-1	-3.21	-2.85	-2.70	-2.41	-1.31	-3.20	-2.85	-2.70	-2.69	-1.11
312	1.88	125	4.36	-2.80	-2.60	-2.49	-2.21	-1.09	-2.80	-2.60	-2.49	-2.52	-1.14
313	1.95	130	6.45	-2.75	-2.56	-2.46	-2.17	-1.03	-2.75	-2.56	-2.46	-2.44	-1.10

e=0.0 P=6 d

102	0.40	18	1.83e-1	-3.23	-3.04	-2.96	-2.74	-1.62
103	0.60	27	3.79e-2	-4.20	-3.29	-3.00	-2.88	-1.79
104	0.80	36	6.01e-3	-4.09	-3.53	-3.34	-3.22	-2.10
106	0.95	43	2.09e-4	-4.28	-4.31	-3.96	-3.76	-2.70
108	1.05	48	1.41e-3	-4.65	-4.43	-3.93	-3.80	-2.70
109	1.20	55	4.13e-3	-4.22	-3.86	-3.30	-3.16	-2.10
111	1.60	73	1.52e-1	-3.67	-3.04	-2.84	-2.73	-1.61
113	1.95	89	9.27e-1	-3.12	-2.81	-2.68	-2.51	-1.38

Notes. V_rot is the initial equatorial rotation velocity in units of km/s; ${\dot{E}}_{tot}$ $\dot{E}_{tot}$ is the total energy dissipation rate after the numerical simulation has evolved to 50 orbital periods in units of 10³⁵ ergs/s; ν is the viscosity as computed in the model using Eq. 2 with λ=1 in units of $R_{⊙}^{2}$ $R^2_\odot$ /d. k indicates the layer with k=1 the layer adjoining the core and k=10 the surface layer, each layer having a depth of ΔR=0.329 R_⊙. The header of each set of model grids indicates the corresponding orbital period and eccentricity.

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