2015MNRAS.447.3909R

Query : 2015MNRAS.447.3909R

2015MNRAS.447.3909R - Mon. Not. R. Astron. Soc., 447, 3909-3923 (2015/March-2)

A Spitzer/IRAC characterization of Galactic AGB and RSG stars.

REITER M., MARENGO M., HORA J.L. and FAZIO G.G.

Abstract (from CDS):

We present new Spitzer/InfraRed Array Camera (IRAC) observations of 55 dusty long-period variables (48 asymptotic giant branch, AGB, and 6 red supergiant stars) in the Galaxy that have different chemistry, variability type, and mass-loss rate. O-rich AGB stars (including intrinsic S-type) tend to have redder [3.6]-[8.0] colours than carbon stars for a given [3.6]-[4.5] colour due to silicate features increasing the flux in the 8.0-µm IRAC band. For colours including the 5.8 µm band, carbon stars separate into two distinct sequences, likely due to a variable photospheric C3 feature that is only visible in relatively unobscured, low mass-loss rate sources. Semiregular variables tend to have smaller infrared (IR) excess in [3.6]-[8.0] colour than Miras, consistent with the hypothesis that semiregular variables lose mass discontinuously. Miras have redder colours for longer periods while semiregular variables do not. Galactic AGB stars follow the period-luminosity sequences found for the Magellanic Clouds. Mira variables fall along the fundamental pulsation sequence, while semiregular variables are mostly on overtone sequences. We also derive a relationship between mass-loss rate and [3.6]-[8.0] colour. The fits are similar in shape to those found by other authors for AGBs in the Large Magellanic Cloud, but discrepant in overall normalization, likely due to different assumptions in the models used to derive mass-loss rates. We find that IR colours are not unique discriminators of chemical type, suggesting caution when using colour selection techniques to infer the chemical composition of AGB dust returned to the interstellar medium.

Abstract Copyright: © 2015 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2015)

Journal keyword(s): stars: AGB and post-AGB - stars: carbon - stars: mass loss - infrared: stars

Simbad objects: 65

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Number of rows : 65
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 V* KU And Mi* 00 06 52.7571912336 +43 05 02.363566416       14.12   M10 83 0
2 V* VX And C* 00 19 54.0161311920 +44 42 33.895984824   12.23 7.80     C-J4.5 159 0
3 V* RW And S* 00 47 18.9203868696 +32 41 08.247572160   12.78 11.79 10.66   S6/2e 86 0
4 V* VY Cas LP* 00 51 26.0014485360 +62 55 14.872790748   10.94 9.62     M6/7III 59 0
5 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11156 1
6 V* HV Cas C* 01 11 03.4682297496 +53 43 40.246817376     12.90 9.79   C4,3e 84 0
7 M 33 GiG 01 33 50.8965749232 +30 39 36.630403128 6.17 6.27 5.72     ~ 5841 1
8 V* SV Psc LP* 01 46 35.3435781336 +19 05 04.537113684   10.02 8.773 8.41   M5 43 0
9 V* XX Per s*r 02 03 09.3585397752 +55 13 56.622913212 11.66 10.34 8.20 6.02 4.19 M4Ib+ 89 0
10 V* RR Per Mi* 02 28 29.4075457320 +51 16 17.281798176       13.09   M6.5e: 78 0
11 V* R For C* 02 29 15.3077617632 -26 05 55.646585700   12.94 7.50 8.01   C4,3e 196 0
12 V* W Per s*r 02 50 37.8929743824 +56 59 00.287654892 14.80 12.24 9.62 6.99 4.75 M3Iab-M5I 115 0
13 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 7069 0
14 HD 19557 C* 03 11 25.3268651352 +57 54 11.223823500   10.04 8.59 7.86   C-J4 97 0
15 * eps Eri BY* 03 32 55.8444911587 -09 27 29.739493865 5.19 4.61 3.73 3.00 2.54 K2V 1933 1
16 V* SY Per C* 04 16 33.1929975216 +50 37 34.603278060   12.72 8.70 8.10   C6,4 79 0
17 V* RV Cam LP* 04 30 41.6803544040 +57 24 42.284271780   9.65 8.20     M4II-III 62 0
18 V* UV Aur C* 05 21 48.9129714624 +32 30 40.177664388   12.46 10.41 9.15   C8,1Je 210 0
19 NAME LMC G 05 23 34.6 -69 45 22     0.4     ~ 17441 0
20 V* NO Aur s*r 05 40 42.0497751264 +31 55 14.197536156 10.52 8.30 6.21 4.43 3.02 M2Iab 145 1
21 V* TU Tau C* 05 45 13.7252280696 +24 25 12.448555140 12.69 11.33 8.46     C-N4+ 122 0
22 V* BN Mon C* 06 21 58.0007287200 +07 20 57.669147852   12.58 12.70     C4,3e 69 0
23 V* CR Gem C* 06 34 23.9161338864 +16 04 30.317377620   12.37 8.67     C-N5 76 0
24 * alf CMa SB* 06 45 08.91728 -16 42 58.0171 -1.51 -1.46 -1.46 -1.46 -1.43 A0mA1Va 1531 0
25 HD 52432 C* 07 01 01.9535075376 -03 15 09.134562744   9.98 8.76 7.65   C-J3.5 109 0
26 V* R Gem S* 07 07 21.2705134872 +22 42 12.747215448 11.74 9.89 7.68 3.75 0.39 S3.5-6.5/6e 196 0
27 V* NQ Pup S* 07 53 05.2704648648 -11 37 29.352872136   9.34 7.64     S4.5/2 96 0
28 IRAS 08305-3314 C* 08 32 32.79936 -33 25 13.8468           C-rich 14 0
29 IRC +10216 C* 09 47 57.40632 +13 16 43.5648           C9,5e 2343 0
30 V* SZ Car C* 09 59 51.7122271872 -60 13 06.041587944   10.6 10.00     C-N4.5 44 0
31 V* S UMa S* 12 43 56.6759612760 +61 05 35.501371908   11.3 7.10 8.02   S0.5-6/6e 170 1
32 V* ET Vir LP* 14 10 50.4870574246 -16 18 07.310535267 8.76 6.63 4.91     M2IIIa 98 0
33 V* RW Boo LP* 14 41 13.3762067784 +31 34 19.711947072 10.23 9.34 8.00     M5III: 60 0
34 V* V CrB C* 15 49 31.3121978280 +39 34 17.892629256     6.90 7.23   C6,2e_MS3 262 0
35 V* AX Sco LP* 16 41 49.7506273488 -27 06 19.383320088   10.09 8.53     M5III 47 0
36 V* TV Dra AB* 17 08 24.5029355616 +64 19 08.745822588   11.02 9.68     M8S: 43 0
37 V* V438 Oph LP* 17 14 39.7815252576 +11 04 09.970384872   10.53 9.29     M8 54 0
38 V* TY Dra LP* 17 37 00.1116207432 +57 44 25.309145436   10.61 9.30     M8 53 0
39 V* SX Sco C* 17 47 28.2369310416 -35 42 04.601718324   11.3 10.50     C-N5 55 0
40 V* FX Ser C* 18 06 50.2066800624 -09 41 16.576025784     14.80 15.62 11.20 C 70 0
41 V* VX Sgr s*r 18 08 04.0442790744 -22 13 26.600899044 11.72 9.41 6.52 3.90 2.11 M8.5Ia 596 0
42 * alf Lyr dS* 18 36 56.33635 +38 47 01.2802 0.03 0.03 0.03 0.07 0.10 A0Va 2687 1
43 V* CZ Ser LP* 18 37 20.9853608496 -02 39 14.835790260   12.59 10.49     M6 22 0
44 V* FI Lyr AB* 18 42 04.8294795960 +28 57 29.807242344   10.75 9.58     M9 44 1
45 BD+68 1022 * 18 47 19.7917465344 +68 16 44.836063716   11.25 9.88     K2III 7 0
46 V* DR Ser C* 18 47 21.0231862728 +05 27 18.606270960   13.39 10.40     C5,4 78 0
47 V* S Sct C* 18 50 20.0367791256 -07 54 27.429169356 13.93 9.89 6.80     C-N5 209 0
48 V* R Cyg S* 19 36 49.3579856496 +50 11 59.727536988   9.96 6.10 8.96 6.447 S4-8/6e 273 1
49 V* V1351 Cyg LP* 19 42 04.1469995832 +55 27 47.597570424 9.65 8.09 6.48     M5III 51 0
50 V* Z Cyg Mi* 20 01 27.5075704056 +50 02 32.634937212   11.12 7.10 8.79   M5.5-6.5e 162 0
51 V* AA Cyg S* 20 04 27.6062351064 +36 49 00.458592240   10.93 8.79     S6/3 93 0
52 IRC -10529 OH* 20 10 27.8731455576 -06 16 13.758742596         15.49 M: 141 0
53 V* V584 Aql LP* 20 10 29.8266386760 -01 37 40.821495780   10.55 9.19     M4(III) 29 0
54 V* RS Cyg C* 20 13 23.6616874008 +38 43 44.470030872 13.26 9.36 6.50 4.38 2.82 C-N5.5 181 0
55 NML Cyg s*r 20 46 25.5392819088 +40 06 59.464289232           M7/8 508 0
56 V* RX Vul Mi* 20 52 59.8022796024 +23 22 16.064875668   13.18 12.13 8.13   M9 47 0
57 V* UX Cyg OH* 20 55 05.5117404456 +30 24 52.015482108       10.404   M6-6.5e 163 0
58 V* T Ind C* 21 20 09.4835040168 -45 01 18.808630176 12.08 8.33 6.00     C7,2 91 0
59 * eps Ind PM* 22 03 21.6536261624 -56 47 09.522795714   5.75 4.69     K5V 552 0
60 V* X Aqr Mi* 22 18 39.3253724064 -20 54 04.028685660   11.58 7.50     M6.5e 65 1
61 V* SS Peg Mi* 22 33 58.3346325671 +24 33 53.975992148   11.43 10.61 7.39   M6.5e: 59 0
62 V* U Lac s*r 22 47 43.4268347928 +55 09 30.312281736 13.20 11.74 9.40     M3Ia 80 0
63 V* HR Peg S* 22 54 35.6272159944 +16 56 30.606025560 9.970 8.160 6.360     S4+/1+ 133 0
64 * alf PsA PM* 22 57 39.04625 -29 37 20.0533 1.31 1.25 1.16 1.11 1.09 A4V 1236 3
65 IRC +60395 Mi* 23 16 55.2512479800 +60 26 00.593849652     15.006     M8.5 16 0

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