KIC 8975515: A fast-rotating (γ Dor – δ Sct) hybrid star with Rossby modes and a slower δ Sct companion in a long-period orbit

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Volume 638 (June 2020)

A&A, 638 (2020) A57

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Table A.2.

Detected frequencies with acceptable signal-to-noise ratio (S/N) from the Fourier spectrum of KIC 8975515 (long-cadence observations, LC).

f_i	f ± ϵ_f	A ± ϵ_A	Π	S/N	P	PS	FS	Mode	m	FR/SR	Comb.	MC	Ref.
	d⁻¹	μmag	d
f₁	13.97236 ± 0.00001	267.74 ± 4.62	0.07157	204				p	0?	FR
f₂	2.37418 ± 0.00001	264.99 ± 5.31	0.42120	76	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₃	2.31022 ± 0.00001	219.12 ± 3.99	0.43286	78	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₄	2.52345 ± 0.00001	213.96 ± 4.68	0.39628	70	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₅	2.25761 ± 0.00001	194.15 ± 3.28	0.44295	80	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₆	16.07633 ± 0.00002	128.14 ± 5.18	0.06220	76			✓	p		FR			Table 2 and Fig. 3
f₇	17.73452 ± 0.00002	84.42 ± 5.62	0.05639	76			✓	p		FR			Table 2 and Fig. 3
f₈	2.22490 ± 0.00002	70.43 ± 3.45	0.44946	30	✓	✓		g		FR
f₉	15.51470 ± 0.00003	68.71 ± 5.96	0.06446	76			✓	p		SR			Table 2 and Fig. 3
f₁₀	2.34658 ± 0.00002	67.83 ± 3.51	0.42615	30	✓
f₁₁	2.21884 ± 0.00002	65.65 ± 3.34	0.45069	30	✓	✓		g		FR
f₁₂	0.14929 ± 0.00002	61.22 ± 2.73	6.69859	24
f₁₃	0.11657 ± 0.00002	55.88 ± 2.38	8.57853	24							f₂ − f₅
f₁₄	2.01581 ± 0.00002	55.08 ± 3.27	0.49608	30	✓	✓		r	2?	FR			Table A.1 and Fig. 5
f₁₅	0.21323 ± 0.00002	54.15 ± 2.26	4.68984	23							f₃ − f₄
f₁₆	2.78938 ± 0.00003	51.37 ± 3.65	0.35850	30	✓
f₁₇	2.28902 ± 0.00003	41.86 ± 3.25	0.43687	30	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₁₈	1.68141 ± 0.00003	40.58 ± 3.24	0.59474	30	✓	✓	✓	r	2?	FR			Table A.1 and Fig. 5
f₁₉	2.80931 ± 0.00003	39.39 ± 3.64	0.35596	30	✓
f₂₀	2.10835 ± 0.00003	37.96 ± 3.14	0.47431	31	✓
f₂₁	2.01453 ± 0.00003	36.98 ± 3.17	0.49639	30	✓	✓		r	2?	FR			Table A.1 and Fig. 5
f₂₂	2.68620 ± 0.00004	34.90 ± 3.27	0.37227	30	✓	✓		?		?			Table 3 and Fig. 5
f₂₃	2.20487 ± 0.00004	30.55 ± 2.92	0.45354	27	✓
f₂₄	1.62692 ± 0.00004	29.96 ± 3.16	0.61466	30	✓	✓		r	1?	FR			Table A.1 and Fig. 5
f₂₅	2.26457 ± 0.00004	28.55 ± 2.93	0.44158	27	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₂₆	3.34565 ± 0.00005	26.76 ± 3.65	0.29890	30		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₇	4.03130 ± 0.00005	25.12 ± 3.66	0.24806	30		✓		r	3?	FR	2f₁₄		Table A.1 and Fig. 5
f₂₈	7.83244 ± 0.00005	24.75 ± 3.51	0.12767	30
f₂₉	21.90413 ± 0.00009	24.31 ± 6.06	0.04565	76
f₃₀	0.41522 ± 0.00003	24.23 ± 1.94	2.40836	12
f₃₁	2.19728 ± 0.00004	23.44 ± 2.26	0.45511	21	✓
f₃₂	15.05250 ± 0.00006	22.82 ± 3.42	0.06643	30			✓	p		SR			Table 2 and Fig. 3
f₃₃	20.16104 ± 0.00006	22.32 ± 3.36	0.04960	30
f₃₄	4.03244 ± 0.00006	22.22 ± 3.32	0.24799	30
f₃₅	1.66312 ± 0.00005	21.41 ± 2.90	0.60128	27	✓	✓		r	2?	FR			Table A.1 and Fig. 5
f₃₆	15.02827 ± 0.00006	21.20 ± 3.47	0.06654	30
f₃₇	2.89346 ± 0.00006	20.83 ± 3.23	0.34561	30	✓	✓		g	−2?	FR			Table 3 and Fig. 5
f₃₈	13.97148 ± 0.00007	19.96 ± 3.54	0.07157	30
f₃₉	0.15528 ± 0.00003	18.83 ± 1.63	6.43987	9							f₂ − f₁₁
f₄₀	13.97325 ± 0.00007	18.18 ± 3.57	0.07157	30		✓		g	−2?	FR			Table 3 and Fig. 5
f₄₁	0.29854 ± 0.00003	17.61 ± 1.59	3.34966	8
f₄₂	2.57491 ± 0.00005	16.79 ± 2.23	0.38836	21
f₄₃	2.56869 ± 0.00005	16.50 ± 2.24	0.38930	21	✓
f₄₄	0.17690 ± 0.00003	16.40 ± 1.49	5.65280	8
f₄₅	15.94343 ± 0.00008	16.27 ± 3.62	0.06272	30			✓	p		SR			Table 2 and Fig. 3
f₄₆	2.18588 ± 0.00005	15.63 ± 2.07	0.45748	14							2f₈ − f₂₅
f₄₇	0.26580 ± 0.00004	15.52 ± 1.50	3.76224	8							f₂ − f₂₀
f₄₈	2.01358 ± 0.00005	15.00 ± 2.08	0.49663	14							2f₂₁ − f₁₄
f₄₉	2.45825 ± 0.00005	14.90 ± 2.10	0.40679	14		✓		g	−2?	FR			Table 3 and Fig. 5
f₅₀	2.23396 ± 0.00005	14.84 ± 2.06	0.44764	14
f₅₁	11.04825 ± 0.00009	14.65 ± 3.63	0.09051	30			✓	p		SR			Table 2 and Fig. 3
f₅₂	1.99395 ± 0.00005	14.63 ± 1.98	0.50152	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₅₃	0.10755 ± 0.00003	14.62 ± 1.31	9.29759	7
f₅₄	2.63465 ± 0.00006	14.21 ± 2.15	0.37956	18		✓		g	2?	FR			Table 3 and Fig. 5
f₅₅	0.12792 ± 0.00004	14.20 ± 1.40	7.81756	7							f₁₀ − f₁₁
f₅₆	0.20199 ± 0.00003	13.69 ± 1.21	4.95070	6							f₃ − f₂₀
f₅₇	1.63391 ± 0.00006	13.63 ± 2.11	0.61203	14		✓		r	1?	FR			Table A.1 and Fig. 5
f₅₈	0.10941 ± 0.00004	13.57 ± 1.30	9.14017	7
f₅₉	2.01671 ± 0.00006	13.46 ± 2.00	0.49586	12							2f₁₄ − f₂₁
f₆₀	6.04730 ± 0.00009	13.12 ± 3.27	0.16536	30							3f₁₄
f₆₁	1.84437 ± 0.00006	13.06 ± 2.05	0.54219	14
f₆₂	2.16094 ± 0.00006	12.81 ± 2.05	0.46276	14							2f₈ − f₁₇
f₆₃	1.69976 ± 0.00006	12.72 ± 2.06	0.58832	14							2f₃₅ − f₂₄
f₆₄	1.99256 ± 0.00006	12.47 ± 1.96	0.50187	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₆₅	1.98707 ± 0.00006	12.43 ± 1.88	0.50325	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₆₆	0.47916 ± 0.00005	11.92 ± 1.47	2.08697	8							f₃ − f₁₆
f₆₇	0.25885 ± 0.00004	11.89 ± 1.26	3.86324	7							f₃ − f₄₃
f₆₈	0.30455 ± 0.00004	11.85 ± 1.27	3.28350	7
f₆₉	1.99033 ± 0.00006	11.77 ± 1.98	0.50243	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₇₀	1.99527 ± 0.00006	11.55 ± 1.83	0.50119	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₇₁	0.20089 ± 0.00004	11.53 ± 1.21	4.97788	6							f₁₀ − f₄₂
f₇₂	2.47839 ± 0.00007	11.37 ± 1.99	0.40349	12		✓		g	2?	FR	2f₄ − f₄₃		Table 3 and Fig. 5
f₇₃	0.16947 ± 0.00004	11.18 ± 1.20	5.90074	6							f₂ − f₂₃
f₇₄	0.69282 ± 0.00006	11.14 ± 1.88	1.44338	12							f₂ − f₁₈
f₇₅	0.84205 ± 0.00007	11.12 ± 2.03	1.18758	14							f₄ − f₁₈
f₇₆	2.17244 ± 0.00007	11.11 ± 1.97	0.46031	12
f₇₇	0.11873 ± 0.00004	11.04 ± 1.14	8.42236	6							2f₂₃ − 2f₂₅
f₇₈	0.53188 ± 0.00005	11.03 ± 1.61	1.88012	8
f₇₉	20.92536 ± 0.00012	11.03 ± 3.65	0.04779	30
f₈₀	0.13599 ± 0.00004	10.94 ± 1.18	7.35343	6
f₈₁	16.07544 ± 0.00013	10.65 ± 3.67	0.06221	30
f₈₂	2.14092 ± 0.00006	10.57 ± 1.82	0.46709	12							2f₅ − f₂
f₈₃	0.62882 ± 0.00006	10.54 ± 1.67	1.59028	10		✓		g	−2?	FR			Table 3 and Fig. 5
f₈₄	1.98588 ± 0.00006	10.50 ± 1.78	0.50356	11
f₈₅	0.51928 ± 0.00005	10.43 ± 1.46	1.92575	8							f₂ − f₃₇
f₈₆	2.50014 ± 0.00007	10.43 ± 1.96	0.39998	12							2f₅ − f₁₄
f₈₇	0.37001 ± 0.00004	10.35 ± 1.23	2.70264	7
f₈₈	2.01958 ± 0.00006	10.35 ± 1.79	0.49515	11							2f₂₀ − f₃₁
f₈₉	1.99180 ± 0.00006	10.29 ± 1.77	0.50206	11
f₉₀	1.95897 ± 0.00007	10.20 ± 1.78	0.51047	11
f₉₁	16.07721 ± 0.00013	10.20 ± 3.67	0.06220	30
f₉₂	2.64890 ± 0.00008	9.96 ± 2.06	0.37752	14
f₉₃	2.10223 ± 0.00007	9.78 ± 1.72	0.47569	11		✓		r	2?	FR			Table A.1 and Fig. 5
f₉₄	10.59499 ± 0.00013	9.72 ± 3.35	0.09438	30			✓	p		SR	f₅ − f₃₅	✓	Table 2 and Fig. 3
f₉₅	2.83861 ± 0.00008	9.61 ± 2.12	0.35229	14		✓		g	−2?	FR			Table 3 and Fig. 5
f₉₆	3.24975 ± 0.00009	9.60 ± 2.25	0.30772	21
f₉₇	1.97265 ± 0.00007	9.50 ± 1.77	0.50693	11		✓		r	2?	FR			Table A.1 and Fig. 5
f₉₈	0.52977 ± 0.00006	9.47 ± 1.41	1.88761	7							2f₃ − 2f₄
f₉₉	2.22625 ± 0.00007	9.35 ± 1.67	0.44919	10							2f₅ − f₁₇
f₁₀₀	1.69309 ± 0.00007	9.25 ± 1.83	0.59064	12		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₀₁	2.13337 ± 0.00007	9.10 ± 1.63	0.46874	9		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₀₂	2.09705 ± 0.00007	9.08 ± 1.72	0.47686	11		✓		r	2?	FR	2f₃ − f₄		Table A.1 and Fig. 5
f₁₀₃	2.10931 ± 0.00007	9.05 ± 1.65	0.47409	9
f₁₀₄	4.46643 ± 0.00012	9.03 ± 2.82	0.22389	24		✓		r	3?	FR			Table A.1 and Fig. 5
f₁₀₅	2.12180 ± 0.00007	9.01 ± 1.68	0.47130	10		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₀₆	2.17351 ± 0.00007	8.83 ± 1.65	0.46009	10
f₁₀₇	2.21165 ± 0.00007	8.82 ± 1.70	0.45215	10
f₁₀₈	0.89650 ± 0.00008	8.78 ± 1.82	1.11545	12							f₄ − f₂₄
f₁₀₉	2.19179 ± 0.00007	8.77 ± 1.64	0.45625	9							f₅ − 2f₈
f₁₁₀	2.17933 ± 0.00007	8.73 ± 1.71	0.45886	10							2f₂ − f₄₃
f₁₁₁	1.97919 ± 0.00007	8.68 ± 1.71	0.50526	10		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₁₂	1.58529 ± 0.00008	8.57 ± 1.83	0.63080	12		✓		r	1?	FR	2f₃₁ − f₁₉		Table A.1 and Fig. 5
f₁₁₃	2.25232 ± 0.00008	8.47 ± 1.73	0.44399	11
f₁₁₄	0.74722 ± 0.00007	8.38 ± 1.63	1.33830	9							f₂ − f₂₄
f₁₁₅	2.01813 ± 0.00007	8.22 ± 1.63	0.49551	9
f₁₁₆	10.16604 ± 0.00015	8.08 ± 3.27	0.09837	30			✓	p		SR			Table 2 and Fig. 3
f₁₁₇	1.98238 ± 0.00008	7.98 ± 1.64	0.50444	9
f₁₁₈	0.63066 ± 0.00007	7.85 ± 1.41	1.58564	7							f₅ − f₂₄
f₁₁₉	17.73366 ± 0.00016	7.83 ± 3.34	0.05639	30
f₁₂₀	2.11381 ± 0.00008	7.80 ± 1.58	0.47308	9		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₂₁	2.14311 ± 0.00008	7.79 ± 1.63	0.46661	9
f₁₂₂	2.24114 ± 0.00008	7.54 ± 1.59	0.44620	9
f₁₂₃	0.57616 ± 0.00006	7.47 ± 1.22	1.73564	6							f₅ − f₁₈
f₁₂₄	3.78867 ± 0.00011	7.41 ± 2.15	0.26394	18
f₁₂₅	0.46577 ± 0.00006	7.36 ± 1.11	2.14698	5
f₁₂₆	2.14759 ± 0.00008	7.31 ± 1.57	0.46564	9		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₂₇	20.23788 ± 0.00017	7.31 ± 3.29	0.04941	30			✓	p		SR			Table 2 and Fig. 3
f₁₂₈	1.98816 ± 0.00008	7.24 ± 1.46	0.50298	8
f₁₂₉	2.29919 ± 0.00008	7.23 ± 1.52	0.43494	8		✓		g	−2?	FR	f₄ − f₈		Table 3 and Fig. 5
f₁₃₀	2.11842 ± 0.00008	7.20 ± 1.57	0.47205	9							2f₂₂ − 2f₂₄
f₁₃₁	2.26535 ± 0.00008	7.20 ± 1.57	0.44143	9
f₁₃₂	17.73542 ± 0.00017	7.18 ± 3.26	0.05638	30
f₁₃₃	1.96789 ± 0.00008	7.15 ± 1.58	0.50816	9		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₃₄	15.98439 ± 0.00017	7.15 ± 3.28	0.06256	30
f₁₃₅	1.59456 ± 0.00009	7.14 ± 1.71	0.62713	10		✓		r	1?	FR			Table A.1 and Fig. 5
f₁₃₆	1.41664 ± 0.00010	7.00 ± 1.83	0.70590	12
f₁₃₇	2.19374 ± 0.00009	7.00 ± 1.61	0.45584	8
f₁₃₈	2.45944 ± 0.00009	6.98 ± 1.61	0.40660	8							2f₂ − f₁₇
f₁₃₉	4.74841 ± 0.00012	6.94 ± 2.16	0.21060	18		✓		r	3?	FR	f₄ + f₈; 2f₂		Table A.1 and Fig. 5
f₁₄₀	2.32178 ± 0.00008	6.93 ± 1.56	0.43070	9		✓		g	−2?	FR			Table 3 and Fig. 5
f₁₄₁	1.98096 ± 0.00009	6.90 ± 1.61	0.50481	8
f₁₄₂	1.97613 ± 0.00008	6.83 ± 1.51	0.50604	8							f₄ − f₃₇
f₁₄₃	2.40690 ± 0.00009	6.77 ± 1.56	0.41547	9		✓		g	−2?	FR	2f₅ − f₂₀		Table 3 and Fig. 5
f₁₄₄	2.04439 ± 0.00009	6.74 ± 1.56	0.48914	9
f₁₄₅	7.35852 ± 0.00016	6.70 ± 2.93	0.13590	27							2f₁₄ + 2f₃₅
f₁₄₆	2.43813 ± 0.00009	6.69 ± 1.58	0.41015	9		✓		g	−2?	FR	2f₂ − f₃		Table 3 and Fig. 5
f₁₄₇	2.60372 ± 0.00009	6.69 ± 1.67	0.38407	10		✓		g	−2?	FR			Table 3 and Fig. 5
f₁₄₈	1.95637 ± 0.00008	6.51 ± 1.47	0.51115	8
f₁₄₉	2.36004 ± 0.00009	6.48 ± 1.57	0.42372	9
f₁₅₀	0.67918 ± 0.00007	6.47 ± 1.22	1.47237	6							2f₁₀ − 2f₂₂
f₁₅₁	2.15726 ± 0.00008	6.43 ± 1.41	0.46355	7							2f₂₄ − f₄₂
f₁₅₂	2.42171 ± 0.00009	6.43 ± 1.51	0.41293	8		✓		g	−2?	FR			Table 3 and Fig. 5
f₁₅₃	0.86029 ± 0.00009	6.42 ± 1.62	1.16239	8
f₁₅₄	2.11310 ± 0.00009	6.42 ± 1.51	0.47324	8
f₁₅₅	0.59452 ± 0.00007	6.37 ± 1.11	1.68202	5
f₁₅₆	6.72024 ± 0.00016	6.23 ± 2.61	0.14880	24
f₁₅₇	2.54831 ± 0.00010	6.18 ± 1.57	0.39242	9		✓		g	−2?	FR			Table 3 and Fig. 5
f₁₅₈	2.13573 ± 0.00009	6.17 ± 1.41	0.46822	7
f₁₅₉	6.17774 ± 0.00014	6.14 ± 2.23	0.16187	21							2f₅ + 2f₃₅
f₁₆₀	2.25033 ± 0.00009	6.13 ± 1.51	0.44438	8							2f₄₂ − f₂₅
f₁₆₁	2.19934 ± 0.00009	6.07 ± 1.47	0.45468	8
f₁₆₂	2.19103 ± 0.00009	5.98 ± 1.46	0.45641	8							2f₂₃ − f₁₁
f₁₆₃	1.94088 ± 0.00009	5.94 ± 1.46	0.51523	8							2f₅ − f₄₂
f₁₆₄	1.94765 ± 0.00009	5.92 ± 1.46	0.51344	8
f₁₆₅	2.00579 ± 0.00009	5.87 ± 1.47	0.49856	8		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₆₆	23.98676 ± 0.00020	5.84 ± 3.18	0.04169	31
f₁₆₇	4.02912 ± 0.00013	5.80 ± 1.97	0.24819	12							2f₂₁
f₁₆₈	4.25699 ± 0.00013	5.79 ± 2.06	0.23491	14							f₁₈ + f₄₂
f₁₆₉	2.01162 ± 0.00009	5.74 ± 1.41	0.49711	7		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₇₀	1.93403 ± 0.00009	5.67 ± 1.41	0.51706	7		✓		r	2?	FR	2f₂₀ − f₂₃		Table A.1 and Fig. 5
f₁₇₁	1.99106 ± 0.00009	5.67 ± 1.36	0.50224	7
f₁₇₂	15.51386 ± 0.00021	5.61 ± 3.18	0.06446	31
f₁₇₃	2.05129 ± 0.00009	5.59 ± 1.37	0.48750	7							2f₃ − f₄₃
f₁₇₄	2.52436 ± 0.00010	5.58 ± 1.42	0.39614	7
f₁₇₅	2.36283 ± 0.00009	5.41 ± 1.36	0.42322	7							2f₃ − f₅
f₁₇₆	0.71111 ± 0.00008	5.38 ± 1.13	1.40625	6							f₂ − f₃₅
f₁₇₇	6.04834 ± 0.00014	5.38 ± 2.06	0.16533	14							2f₁₈ + 2f₂₂
f₁₇₈	1.96985 ± 0.00010	5.37 ± 1.36	0.50765	7
f₁₇₉	2.13449 ± 0.00010	5.36 ± 1.36	0.46850	7
f₁₈₀	2.14605 ± 0.00008	5.36 ± 1.21	0.46597	6
f₁₈₁	2.38873 ± 0.00010	5.34 ± 1.36	0.41863	7
f₁₈₂	2.57627 ± 0.00011	5.33 ± 1.51	0.38816	8		✓		g	−2?	FR			Table 3 and Fig. 5
f₁₈₃	2.24623 ± 0.00010	5.30 ± 1.35	0.44519	7							2f₃ − f₁
f₁₈₄	19.80269 ± 0.00022	5.28 ± 3.16	0.05050	31			✓	p		SR			Table 2 and Fig. 3
f₁₈₅	2.12497 ± 0.00010	5.21 ± 1.35	0.47060	7							2f₁₀ − f₄₃
f₁₈₆	15.93359 ± 0.00021	5.21 ± 2.93	0.06276	27
f₁₈₇	2.15242 ± 0.00009	5.17 ± 1.25	0.46459	7							2f₂₃ − f₅
f₁₈₈	1.75012 ± 0.00010	5.15 ± 1.41	0.57139	7		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₈₉	2.08089 ± 0.00009	5.09 ± 1.21	0.48056	6		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₉₀	15.51563 ± 0.00022	5.08 ± 2.94	0.06445	27
f₁₉₁	1.94267 ± 0.00010	5.03 ± 1.35	0.51476	7
f₁₉₂	1.84556 ± 0.00008	5.02 ± 1.13	0.54184	6
f₁₉₃	16.32732 ± 0.00022	5.00 ± 2.94	0.06125	27			✓	p		SR			Table 2 and Fig. 3
f₁₉₄	2.25688 ± 0.00009	4.90 ± 1.21	0.44309	6
f₁₉₅	2.16214 ± 0.00009	4.86 ± 1.14	0.46250	6
f₁₉₆	0.88970 ± 0.00010	4.85 ± 1.33	1.12397	7
f₁₉₇	2.07472 ± 0.00009	4.84 ± 1.14	0.48199	6		✓		r	2?	FR			Table A.1 and Fig. 5
f₁₉₈	2.43954 ± 0.00010	4.84 ± 1.35	0.40991	7
f₁₉₉	1.92603 ± 0.00009	4.82 ± 1.12	0.51920	6		✓		r	2?	FR	2f₈ − f₄		Table A.1 and Fig. 5
f₂₀₀	1.64671 ± 0.00011	4.79 ± 1.36	0.60727	7						FR	f_rot
f₂₀₁	2.04845 ± 0.00009	4.77 ± 1.12	0.48817	6							2f₃₁ − f₁₀
f₂₀₂	5.04690 ± 0.00016	4.76 ± 2.00	0.19814	12							f₅ + f₁₆; 2f₄
f₂₀₃	1.84322 ± 0.00009	4.73 ± 1.13	0.54253	6
f₂₀₄	2.69696 ± 0.00012	4.72 ± 1.52	0.37079	8		✓		?		?			Table 3 and Fig. 5
f₂₀₅	2.16895 ± 0.00009	4.67 ± 1.12	0.46105	6							2f₅ − f₁₀
f₂₀₆	1.92431 ± 0.00009	4.62 ± 1.12	0.51967	6
f₂₀₇	1.96217 ± 0.00009	4.58 ± 1.14	0.50964	6
f₂₀₈	1.99649 ± 0.00009	4.55 ± 1.11	0.50088	5
f₂₀₉	2.21260 ± 0.00009	4.55 ± 1.10	0.45196	5
f₂₁₀	2.49083 ± 0.00011	4.54 ± 1.33	0.40147	7							2f₂ − f₅
f₂₁₁	20.45416 ± 0.00024	4.54 ± 2.94	0.04889	27
f₂₁₂	1.48172 ± 0.00012	4.49 ± 1.38	0.67489	7
f₂₁₃	1.28700 ± 0.00012	4.48 ± 1.41	0.77700	7
f₂₁₄	2.25609 ± 0.00009	4.40 ± 1.10	0.44325	6
f₂₁₅	1.77839 ± 0.00010	4.37 ± 1.12	0.56231	6
f₂₁₆	2.06446 ± 0.00009	4.37 ± 1.10	0.48439	6
f₂₁₇	2.30884 ± 0.00010	4.35 ± 1.14	0.43312	6
f₂₁₈	1.67856 ± 0.00010	4.31 ± 1.13	0.59575	6							2f₄₂ − f₁₇
f₂₁₉	2.27908 ± 0.00010	4.30 ± 1.10	0.43877	6		✓		g	−2?	FR			Table 3 and Fig. 5
f₂₂₀	1.70286 ± 0.00010	4.29 ± 1.13	0.58725	6
f₂₂₁	4.78114 ± 0.00017	4.29 ± 1.92	0.20916	13		✓		r	3?	FR	f₄ + f₅		Table A.1 and Fig. 5
f₂₂₂	11.11326 ± 0.00020	4.29 ± 2.26	0.08998	21
f₂₂₃	1.34210 ± 0.00012	4.22 ± 1.35	0.74510	7
f₂₂₄	3.97494 ± 0.00015	4.22 ± 1.73	0.25158	11		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₂₅	6.04646 ± 0.00018	4.17 ± 2.06	0.16539	14							2f₁₄ + 2f₂₁
f₂₂₆	21.76370 ± 0.00026	4.16 ± 2.93	0.04595	27
f₂₂₇	1.75720 ± 0.00010	4.04 ± 1.10	0.56909	5		✓		r	2?	FR	2f₁₄ − 2f₃₇		Table A.1 and Fig. 5
f₂₂₈	2.69193 ± 0.00012	3.91 ± 1.25	0.37148	7		✓		?		?			Table 3 and Fig. 5
f₂₂₉	2.82110 ± 0.00013	3.88 ± 1.37	0.35447	7
f₂₃₀	4.53511 ± 0.00017	3.86 ± 1.77	0.22050	11		✓		r	3?	FR	f₃ + f₈		Table A.1 and Fig. 5
f₂₃₁	4.02823 ± 0.00015	3.81 ± 1.57	0.24825	9
f₂₃₂	4.62042 ± 0.00017	3.78 ± 1.71	0.21643	10		✓		r	3?	FR	f₁₀ + f₁₈; 2f₃		Table A.1 and Fig. 5
f₂₃₃	1.10075 ± 0.00011	3.77 ± 1.14	0.90847	6							2f₃₅ − f₈
f₂₃₄	4.89775 ± 0.00018	3.74 ± 1.79	0.20418	11
f₂₃₅	5.34932 ± 0.00019	3.74 ± 1.88	0.18694	12
f₂₃₆	4.77578 ± 0.00018	3.67 ± 1.77	0.20939	11		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₃₇	2.70471 ± 0.00012	3.63 ± 1.21	0.36972	6		✓		?		?			Table 3 and Fig. 5
f₂₃₈	3.65986 ± 0.00017	3.42 ± 1.51	0.27323	8		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₃₉	3.53266 ± 0.00016	3.41 ± 1.49	0.28307	8		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₄₀	6.04958 ± 0.00020	3.39 ± 1.78	0.16530	11							2f₁₈ + 2f₂₂
f₂₄₁	23.51672 ± 0.00025	3.39 ± 2.26	0.04252	21
f₂₄₂	3.00995 ± 0.00015	3.35 ± 1.35	0.33223	7		✓		g	−2?	FR	2f₁₆ − f₄₃		Table 3 and Fig. 5
f₂₄₃	13.96989 ± 0.00024	3.32 ± 2.09	0.07158	14
f₂₄₄	4.03601 ± 0.00017	3.31 ± 1.47	0.24777	8
f₂₄₅	3.39771 ± 0.00016	3.30 ± 1.41	0.29432	7		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₄₆	3.19086 ± 0.00016	3.15 ± 1.35	0.31340	7		✓		g	−2?	FR			Table 3 and Fig. 5
f₂₄₇	4.16959 ± 0.00018	3.01 ± 1.41	0.23983	7
f₂₄₈	13.97509 ± 0.00027	3.00 ± 2.13	0.07156	14
f₂₄₉	21.16071 ± 0.00027	3.00 ± 2.16	0.04726	18			✓	p		FR			Table 2 and Fig. 3
f₂₅₀	4.66278 ± 0.00020	2.94 ± 1.56	0.21446	9		✓		r	3?	FR	f₂ + f₁₇		Table A.1 and Fig. 5
f₂₅₁	8.69041 ± 0.00024	2.93 ± 1.88	0.11507	12
f₂₅₂	8.85234 ± 0.00026	2.86 ± 1.97	0.11296	12
f₂₅₃	4.72084 ± 0.00019	2.85 ± 1.47	0.21183	8		✓		r	3?	FR	f₂ + f₁₀		Table A.1 and Fig. 5
f₂₅₄	4.13855 ± 0.00018	2.84 ± 1.35	0.24163	7		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₅₅	5.49549 ± 0.00021	2.83 ± 1.58	0.18197	9							f₁₉ + f₂₂
f₂₅₆	21.90312 ± 0.00029	2.79 ± 2.13	0.04566	14
f₂₅₇	3.60157 ± 0.00015	2.77 ± 1.14	0.27766	6		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₅₈	21.90493 ± 0.00029	2.75 ± 2.12	0.04565	14
f₂₅₉	5.35021 ± 0.00020	2.73 ± 1.49	0.18691	8
f₂₆₀	13.97428 ± 0.00028	2.67 ± 2.00	0.07156	12
f₂₆₁	5.74977 ± 0.00023	2.66 ± 1.62	0.17392	8
f₂₆₂	7.33581 ± 0.00024	2.58 ± 1.68	0.13632	10							2f₄ + 2f₁₇
f₂₆₃	8.80145 ± 0.00026	2.58 ± 1.78	0.11362	11
f₂₆₄	3.89928 ± 0.00016	2.55 ± 1.12	0.25646	5		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₆₅	4.48252 ± 0.00020	2.52 ± 1.33	0.22309	7		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₆₆	4.09437 ± 0.00017	2.51 ± 1.12	0.24424	5		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₆₇	3.94425 ± 0.00017	2.49 ± 1.11	0.25353	5		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₆₈	20.16011 ± 0.00032	2.45 ± 2.06	0.04960	14
f₂₆₉	16.07421 ± 0.00029	2.43 ± 1.88	0.06221	12
f₂₇₀	24.33085 ± 0.00032	2.34 ± 1.98	0.04110	12
f₂₇₁	6.34149 ± 0.00025	2.31 ± 1.56	0.15769	9							f₃ + 2f₁₄
f₂₇₂	16.07815 ± 0.00033	2.27 ± 1.98	0.06220	12
f₂₇₃	4.56792 ± 0.00019	2.26 ± 1.13	0.21892	6							f₃ + f₅		Table A.1 and Fig. 5
f₂₇₄	17.73636 ± 0.00033	2.25 ± 1.97	0.05638	12
f₂₇₅	23.13558 ± 0.00034	2.24 ± 2.05	0.04322	14
f₂₇₆	4.76692 ± 0.00019	2.23 ± 1.13	0.20978	6		✓		r	3?	FR			Table A.1 and Fig. 5
f₂₇₇	5.26776 ± 0.00021	2.23 ± 1.25	0.18983	7
f₂₇₈	9.42582 ± 0.00029	2.23 ± 1.71	0.10609	10			✓	p		SR			Table 2 and Fig. 3
f₂₇₉	20.16189 ± 0.00034	2.18 ± 1.98	0.04960	12
f₂₈₀	6.04314 ± 0.00023	2.15 ± 1.35	0.16548	7							f₁₆ + 2f₂₄; 3f₂₁
f₂₈₁	8.62559 ± 0.00029	2.13 ± 1.64	0.11593	9							2f₂₂ + 2f₂₄
f₂₈₂	15.94840 ± 0.00033	2.06 ± 1.82	0.06270	12
f₂₈₃	13.97074 ± 0.00031	2.04 ± 1.67	0.07158	10
f₂₈₄	12.59264 ± 0.00031	2.01 ± 1.67	0.07941	10
f₂₈₅	12.29104 ± 0.00030	2.00 ± 1.62	0.08136	8							f₁ − f₁₈	✓
f₂₈₆	23.37211 ± 0.00036	2.00 ± 1.94	0.04279	13
f₂₈₇	5.75903 ± 0.00022	1.97 ± 1.13	0.17364	6
f₂₈₈	18.07571 ± 0.00034	1.96 ± 1.77	0.05532	11
f₂₈₉	10.07893 ± 0.00032	1.93 ± 1.62	0.09922	8
f₂₉₀	5.82624 ± 0.00022	1.92 ± 1.13	0.17164	6
f₂₉₁	7.71673 ± 0.00028	1.92 ± 1.41	0.12959	7
f₂₉₂	16.07896 ± 0.00034	1.84 ± 1.68	0.06219	10
f₂₉₃	6.27130 ± 0.00023	1.83 ± 1.13	0.15946	6
f₂₉₄	13.98038 ± 0.00033	1.83 ± 1.61	0.07153	8
f₂₉₅	6.42793 ± 0.00023	1.82 ± 1.14	0.15557	6
f₂₉₆	22.88613 ± 0.00038	1.80 ± 1.83	0.04369	12
f₂₉₇	15.90034 ± 0.00036	1.77 ± 1.68	0.06289	10
f₂₉₈	13.21455 ± 0.00035	1.76 ± 1.63	0.07567	9
f₂₉₉	7.65563 ± 0.00026	1.75 ± 1.21	0.13062	6			✓	p		SR			Table 2 and Fig. 3
f₃₀₀	15.05330 ± 0.00034	1.67 ± 1.51	0.06643	8
f₃₀₁	7.24786 ± 0.00026	1.63 ± 1.11	0.13797	5			✓	p		SR			Table 2 and Fig. 3
f₃₀₂	9.67081 ± 0.00032	1.62 ± 1.38	0.10340	7
f₃₀₃	11.95624 ± 0.00030	1.60 ± 1.27	0.08364	7			✓	p		FR	f₁ − f₁₆	✓	Table 2 and Fig. 3
f₃₀₄	8.10046 ± 0.00027	1.56 ± 1.11	0.12345	5			✓	p		SR			Table 2 and Fig. 3
f₃₀₅	19.38475 ± 0.00039	1.55 ± 1.61	0.05159	8			✓	p		FR			Table 2 and Fig. 3
f₃₀₆	23.41349 ± 0.00040	1.54 ± 1.63	0.04271	9
f₃₀₇	17.73719 ± 0.00037	1.52 ± 1.51	0.05638	8
f₃₀₈	9.81926 ± 0.00030	1.51 ± 1.21	0.10184	6			✓	p		SR			Table 2 and Fig. 3
f₃₀₉	15.02743 ± 0.00038	1.45 ± 1.46	0.06654	8
f₃₁₀	15.51649 ± 0.00037	1.42 ± 1.41	0.06445	7
f₃₁₁	19.48475 ± 0.00037	1.42 ± 1.42	0.05132	7			✓	p		FR			Table 2 and Fig. 3
f₃₁₂	15.94256 ± 0.00039	1.41 ± 1.47	0.06273	8
f₃₁₃	13.82395 ± 0.00037	1.40 ± 1.39	0.07234	7
f₃₁₄	10.43538 ± 0.00030	1.37 ± 1.11	0.09583	5
f₃₁₅	17.73245 ± 0.00041	1.35 ± 1.47	0.05639	8
f₃₁₆	15.88875 ± 0.00040	1.33 ± 1.41	0.06294	7
f₃₁₇	16.07328 ± 0.00038	1.33 ± 1.35	0.06222	7
f₃₁₈	20.92450 ± 0.00046	1.32 ± 1.62	0.04779	8
f₃₁₉	15.19383 ± 0.00038	1.31 ± 1.34	0.06582	7
f₃₂₀	13.58882 ± 0.00036	1.27 ± 1.21	0.07359	6			✓	p		FR			Table 2 and Fig. 3
f₃₂₁	13.96839 ± 0.00033	1.27 ± 1.12	0.07159	5
f₃₂₂	15.02920 ± 0.00033	1.27 ± 1.12	0.06654	6
f₃₂₃	15.37967 ± 0.00035	1.20 ± 1.13	0.06502	6
f₃₂₄	17.92462 ± 0.00039	1.20 ± 1.26	0.05579	7
f₃₂₅	19.84820 ± 0.00043	1.20 ± 1.37	0.05038	7
f₃₂₆	19.35654 ± 0.00036	1.16 ± 1.11	0.05166	5			✓	p		SR			Table 2 and Fig. 3
f₃₂₇	22.16604 ± 0.00043	1.11 ± 1.27	0.04511	7
f₃₂₈	20.23708 ± 0.00039	1.09 ± 1.13	0.04941	6
f₃₂₉	20.92620 ± 0.00039	1.09 ± 1.14	0.04779	6
f₃₃₀	23.13821 ± 0.00044	1.04 ± 1.21	0.04322	6
f₃₃₁	23.13300 ± 0.00041	1.03 ± 1.12	0.04323	6

Notes. P: parent frequencies (Sect. 4), SR and FR: detected g, r, and p modes are most probably associated to slow-rotating and fast-rotating stars. PS: detected g and r mode is part of a prograde and retrograde period spacing pattern. FS: detected g, r, and p mode is with (semi-)regularly spaced from the other frequency in the same multiplet. MC: mode is excited as the result of coupling of the most dominant detected p mode (f₁) and a detected g and r mode (f₁ ± f_g, r). The superscript “*” denotes the frequencies that are not formed from a unique combination of parent frequencies. Furthermore, m is determined based on f_r mode = mf_rot and ℓ is the mode degree and is determined based on observed rotational splitting of a low- and high-frequency mode.

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