2020ApJ...901..101S

Query : 2020ApJ...901..101S

2020ApJ...901..101S - Astrophys. J., 901, 101-101 (2020/October-1)

Stellar population synthesis with distinct kinematics: multiage asymmetric drift in SDSS-IV MaNGA galaxies.

SHETTY S., BERSHADY M.A., WESTFALL K.B., CAPPELLARI M., DRORY N., LAW D.R., YAN R. and BUNDY K.

Abstract (from CDS):

We present the first asymmetric drift (AD) measurements for unresolved stellar populations of different characteristic ages above and below 1.5 Gyr. These measurements sample the age-velocity relation in galaxy disks. In this first paper, we develop two efficient algorithms to extract AD on a spaxel-by-spaxel basis from optical integral-field spectroscopic data cubes. The algorithms apply different spectral templates, one using simple stellar populations and the other a stellar library; their comparison allows us to assess systematic errors in derived multicomponent velocities, such as template mismatch. We test algorithm reliability using mock spectra and Monte Carlo Markov Chains on real data from the MaNGA survey in Sloan Digital Sky Survey IV. We quantify random and systematic errors in AD as a function of signal-to-noise and stellar population properties with the aim of applying this technique to large subsets of the MaNGA galaxy sample. As a demonstration of our methods, we apply them to an initial sample of seven galaxies with comparable stellar mass and color to the Milky Way. We find a wide range of distinct AD radial profiles for young and old stellar populations.

Abstract Copyright: © 2020. The American Astronomical Society. All rights reserved.

Journal keyword(s): Galaxy stellar content - Galaxy stellar disks - Galaxy kinematics - Spiral galaxies

Simbad objects: 62

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Number of rows : 62
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 M 31 AGN 00 42 44.330 +41 16 07.50 4.86 4.36 3.44     ~ 12645 1
2 M 33 GiG 01 33 50.8965749232 +30 39 36.630403128 6.17 6.27 5.72     ~ 5838 1
3 * i Per sg* 02 22 21.4343107056 +55 50 44.350353276 5.43 5.54 5.17 4.79 4.47 A1Ia 195 0
4 * 21 Per a2* 02 57 17.2817216760 +31 56 03.193498176   5.081 5.093     A2VspSiEu 199 0
5 HD 25291 * 04 04 27.1629402984 +59 09 19.832668272 6.10 5.63 5.12 4.62 4.24 F0II 108 0
6 * alf Cam s*b 04 54 03.0113886719 +66 20 33.633625509 3.47 4.34 4.29 4.18 4.18 O9Ia 661 1
7 * 15 Ori ** 05 09 41.9571460296 +15 35 49.966969920 5.33 5.14 4.82 4.50 4.31 F2IV 114 0
8 HD 34797 a2* 05 19 18.3112191840 -18 30 34.391115684 6.02 6.43 6.54     B7Vp 105 0
9 * lam Lep * 05 19 34.5223081894 -13 10 36.369844928 3.03 4.04 4.29 4.41 4.69 B0.5V 302 0
10 * 19 Aur V* 05 20 00.9210992208 +33 57 28.994858280 5.72 5.30 5.03     A5II+ 105 0
11 * bet Tau PM* 05 26 17.51312 +28 36 26.8262 1.03 1.52 1.65 1.66 1.76 B7III 366 2
12 * 119 Tau s*r 05 32 12.7516308641 +18 35 39.251766506 8.63 6.41 4.33 2.55 1.13 M2Iab-Ib 278 0
13 * alf Lep V* 05 32 43.8161188 -17 49 20.241380 3.02 2.77 2.57 2.35 2.14 F0Ib 280 0
14 * alf Ori s*r 05 55 10.30536 +07 24 25.4304 4.38 2.27 0.42 -1.17 -2.45 M1-M2Ia-Iab 1670 0
15 HD 41692 * 06 06 38.7363839832 -04 11 37.808375208 4.71 5.231 5.362     B5II/III 128 0
16 * mu. Gem LP* 06 22 57.62686 +22 30 48.8979 6.37 4.51 2.87 1.30 -0.08 M3IIIab 379 1
17 * 25 Gem * 06 41 20.8975543776 +28 11 47.904494928   7.521 6.427     G5Ib 92 0
18 * iot CMa s*b 06 56 08.2245944314 -17 03 15.259069948 3.62 4.297 4.385 6.40   B3Ib 172 0
19 NVSS J074637+444729 rG 07 46 37.7102583240 +44 47 25.872178992   14.3       ~ 56 0
20 * eta Leo * 10 07 19.9523915176 +16 45 45.587968398 3.17 3.39 3.41 3.32 3.35 A0Ib 336 0
21 * 30 LMi Pe* 10 25 54.8149486684 +33 47 46.029118764   4.978 4.718     F0VmF3/4 148 0
22 * 36 UMa B PM* 10 30 25.3088805072 +55 59 56.855409072   10.10   8.749   K7Ve 132 1
23 * 37 LMi * 10 38 43.2128104658 +31 58 34.463378806   5.494 4.677     G2.5IIIa 156 0
24 * nu. Vir LP* 11 45 51.5595979999 +06 31 45.748996439 7.32 5.54 4.04 2.79 1.78 M1III 259 0
25 HD 104985 HB* 12 05 15.1171894272 +76 54 20.642733144       5.2   G8.5IIIb 154 1
26 HD 105043 PM* 12 05 39.7008683688 +62 55 59.226649716   7.36 6.13     K2III 44 0
27 HD 105262 pA* 12 07 10.8254657184 +12 59 07.679272308 6.96 7.08 7.08     B9 70 0
28 HD 106210 PM* 12 13 13.1188715095 +10 49 17.959844323   8.24   7.1   G3V 88 0
29 * 7 Com * 12 16 20.5383338546 +23 56 43.466192439   5.81 4.86     G8III-IIIb 129 0
30 * 11 Com PM* 12 20 43.0257695904 +17 47 34.327512348   5.74 4.74     G8+IIIFe-1 162 1
31 HD 108954 PM* 12 30 50.1358011744 +53 04 35.784940872       5.9   F9V 128 0
32 V* KR Vir LP* 12 41 03.6204364704 -00 37 13.819995732 12.628 10.962 9.370 8.538 7.779 KIIvw 67 0
33 * del Vir RG* 12 55 36.2086240844 +03 23 50.888053818 6.76 4.97 3.38 1.86 0.53 M3+III 272 0
34 ACO 1656 ClG 12 59 44.40 +27 54 44.9           ~ 4800 2
35 * 41 Com PM* 13 07 10.7299222671 +27 37 29.055438610 8.14 6.22 4.69 3.64 2.83 K5-III 163 0
36 * 70 Vir PM* 13 28 25.8085908881 +13 46 43.638308807 5.930 5.680 4.970 4.37 3.98 G4Va 715 1
37 2MASX J13471922+2150016 LIN 13 47 19.2624855936 +21 50 01.618040400   15.7       ~ 16 0
38 HD 121146 PM* 13 50 59.1186546840 +68 18 55.076466168       5.7   K2IV 83 0
39 MCG+07-29-024 LIN 13 57 00.4749476640 +43 21 43.191996408   15.0       ~ 26 0
40 Z 247-10 G 14 12 24.8195775744 +44 27 39.062238912   15.6       ~ 20 0
41 * alf Boo RG* 14 15 39.67207 +19 10 56.6730 2.46 1.18 -0.05 -1.03 -1.68 K1.5IIIFe-0.5 2318 1
42 V* RX Boo AB* 14 24 11.6253191184 +25 42 13.394221596   9.23 8.60     M7.5-M8 441 0
43 * phi Vir PM* 14 28 12.1389021744 -02 13 40.649015856   5.522 4.840     G2IV 191 0
44 * ksi Boo BY* 14 51 23.37993 +19 06 01.6994 5.618 5.370 4.593 3.91 3.48 G7Ve+K5Ve 474 0
45 * c Boo PM* 15 07 18.0659348352 +24 52 09.099406380 5.34 5.36 4.93 4.53 4.32 F5V 355 0
46 2MASX J15362673+4751175 AGN 15 36 26.7824364936 +47 51 17.319997836   15.20       ~ 43 0
47 UGC 9995 G 15 43 11.6072236128 +47 45 13.170967776   15.4       ~ 25 0
48 Z 251-9 G 16 20 21.5207455584 +49 56 36.588387876   15.4       ~ 23 0
49 * g Her AB* 16 28 38.5495839988 +41 52 54.044914927 7.70 6.53 5.01 2.49 0.26 M6-III 377 0
50 * 12 Oph BY* 16 36 21.4496896968 -02 19 28.513024233 7.00 6.55 5.77 5.13 4.74 K1V 487 0
51 * zet Dra ** 17 08 47.1877295740 +65 42 52.723177105 2.63 3.06 3.17 3.23 3.35 B6III 236 0
52 * 36 Dra PM* 18 13 53.8328065738 +64 23 50.225760192   5.407 4.987 4.8   F5V 196 0
53 HD 175545 PM* 18 55 51.4488060720 -00 44 22.116864048   8.60 7.40     K2III 48 0
54 HD 175640 * 18 56 22.6598858520 -01 47 59.503936200 5.86 6.149 6.196     B9IIIpHgMnEu 153 0
55 * eta Lyr SB* 19 13 45.4884201191 +39 08 45.477640475 3.58 4.243 4.398     B2.5IV 154 0
56 * c Aql dS* 19 29 00.9869402808 +01 57 01.616825124   5.865 5.783     A0IVp 182 0
57 HD 184266 HB* 19 34 15.3865887336 -16 19 00.228534420 8.27 8.12 7.57     F2V 122 0
58 * b01 Cyg RS* 20 06 21.7672972921 +35 58 20.889117643   6.21   4.8   G8.5IVa 175 0
59 * eps Aqr * 20 47 40.5495728200 -09 29 44.796936843 3.79 3.77 3.77 3.70 3.70 B9.5V 281 0
60 * pi.02 Cyg SB* 21 46 47.6097792927 +49 18 34.454260528 3.4 4.11 4.18     B3III 173 0
61 * 6 Cas ** 23 48 50.17052 +62 12 52.2577       6.60   A2.5(I)+O9.8II 193 0
62 NAME Local Group GrG ~ ~           ~ 8389 0

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