2022AJ....164...10B

Query : 2022AJ....164...10B

2022AJ....164...10B - Astron. J., 164, 10-10 (2022)

How Do Spitzer IRAC Fluxes Compare to HST CALSPEC?.

BOHLIN R.C., KRICK J.E., GORDON K.D. and HUBENY I.

Abstract (from CDS):

An accurate tabulation of stellar brightness in physical units is essential for a multitude of scientific endeavors. The HST/CALSPEC database of flux standards contains many stars with spectral coverage in the 0.115-1 µm range, with some extensions to longer wavelengths of 1.7 or 2.5 µm. Modeled flux distributions to 32 µm for calibration of JWST complement the shorter-wavelength HST measurements. Understanding the differences between IRAC observations and CALSPEC models is important for science that uses IR fluxes from multiple instruments, including JWST. The absolute flux of Spitzer IRAC photometry at 3.6-8 µm agrees with CALSPEC synthetic photometry to 1% for the three prime HST standards: G191B2B, GD153, and GD71. For a set of 17-22 A-star standards, the average IRAC difference rises from agreement at 3.6 µm to 3.4% ± 0.1% brighter than CALSPEC at 8 µm. For a smaller set of G-type stars, the average of the IRAC photometry falls below CALSPEC by as much as 3.7% ± 0.3% for IRAC1, while one G-type star, P330E, is consistent with the A-star ensemble of IRAC/CALSPEC ratios.

Abstract Copyright: © 2022. The Author(s). Published by the American Astronomical Society.

Journal keyword(s): Flux calibration - Spectrophotometric standards - Infrared photometry

Simbad objects: 44

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Number of rows : 44
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 HD 2811 * 00 31 18.4898965416 -43 36 22.998046968   7.67 7.50     A3V 37 0
2 HD 14943 ** 02 22 54.6750661920 -51 05 31.659759744   6.101 5.898     A5V 46 0
3 WG 7 WD* 03 09 47.9177537304 -56 23 49.411222764   13.99 14.14 14.42   DB 55 0
4 UCAC3 125-8171 * 03 32 32.8728703992 -27 51 48.339287532 18.74 18.0893 16.64   17.0383 ~ 33 0
5 BD+52 913 WD* 05 05 30.6180977592 +52 49 51.919301604 10.25 11.44 11.69 11.93 12.108 DA.8 1092 0
6 * lam Lep * 05 19 34.5223081894 -13 10 36.369844928 3.03 4.04 4.29 4.41 4.69 B0.5V 303 0
7 HD 37962 PM* 05 40 51.9657648277 -31 21 03.986325115   8.50 7.85     G2V 110 0
8 HD 37725 * 05 41 54.3697767432 +29 17 50.954803440   8.12 8.31     A3V 21 0
9 * mu. Col V* 05 45 59.8950238944 -32 18 23.162261796 3.84 4.90 5.18 5.30 5.57 O9.5V 495 0
10 HD 38949 * 05 48 20.0587517352 -24 27 49.853027448   8.37 7.80     G1V 75 0
11 GD 71 WD* 05 52 27.6198591816 +15 53 13.228887444 11.675 12.783 13.032 13.169 13.337 DA1.5 387 0
12 * eta01 Dor SB* 06 06 09.3817676280 -66 02 22.635231936   5.679 5.690     A0V 78 0
13 * alf CMa SB* 06 45 08.91728 -16 42 58.0171 -1.51 -1.46 -1.46 -1.46 -1.43 A0mA1Va 1533 0
14 HD 55677 * 07 14 31.2896780664 +13 51 36.782107236   9.47 9.41     A4V 12 0
15 PG 1057+719 WD* 11 00 34.2431647104 +71 38 02.920054596   14.95 14.68 15.23   DA1.2 74 0
16 HD 101452 * 11 40 13.6523144304 -39 08 47.685598728   7.84 8.20     A2/3(m)A8-F2 36 0
17 HD 106252 PM* 12 13 29.5095375792 +10 02 29.887248516   8.00   7.0   G0 190 1
18 GD 153 WD* 12 57 02.3224909560 +22 01 52.634778240 11.883 13.060 13.349 13.488 13.669 DA1.2 356 0
19 HD 116405 * 13 22 45.1228533984 +44 42 53.894434752   8.27 8.34     A0V 47 0
20 * eta UMa PM* 13 47 32.43776 +49 18 47.7602 0.99 1.67 1.86 1.98 2.16 B3V 611 0
21 HD 128998 * 14 38 15.2215216824 +54 01 24.025416240 5.830 5.830 5.830     A1V 60 0
22 * 109 Vir PM* 14 46 14.9234473441 +01 53 34.381780831 3.69 3.72 3.73 3.66 3.68 A0IIInn 338 0
23 * 18 Sco PM* 16 15 37.2702755653 -08 22 09.982125430   6.15 5.50     G2Va 606 0
24 GSC 02581-02323 * 16 31 33.8123836584 +30 08 46.397382324 13.576 12.972 12.917 12.564 12.212 G2V 89 0
25 BD+60 1753 * 17 24 52.2753625128 +60 25 50.749843296   9.72 9.65     A1V 32 0
26 HD 158485 * 17 26 04.8373251744 +58 39 06.831955296   6.616 6.494     A4V 65 0
27 HD 159222 PM* 17 32 00.9920372760 +34 16 16.133732796 7.38 7.21   6.1   G1V 245 0
28 * del UMi PM* 17 32 12.9982131368 +86 35 11.254580071   4.367 4.336     A1Van 114 0
29 TYC 4424-1286-1 * 17 32 52.6298776872 +71 04 43.121508384   12.75 12.21     A4V 15 0
30 2MASS J17430448+6655015 Pu* 17 43 04.4856387072 +66 55 01.661508948   13.80 13.525     A5V 21 0
31 HD 163466 * 17 52 25.3741156656 +60 23 46.938537132   7.04 6.85     A2 46 0
32 TYC 4212-455-1 * 17 57 13.2321989328 +67 03 40.756797288   11.91 12.01     A3V 20 0
33 BPS BS 17447-0067 * 18 02 27.1684933179 +60 43 35.590410425   12.017 11.995 12.120   A2V 17 0
34 HD 165459 * 18 02 30.7405607784 +58 37 38.159882076   6.98 6.86   6.70 A1V 48 0
35 TYC 4209-1396-1 * 18 05 29.2757502480 +64 27 52.118903700   12.54 12.74     A4V 18 0
36 TYC 4433-1800-1 * 18 08 34.7360078880 +69 27 28.721915028   12.18 11.69     A3V 29 0
37 TYC 4205-1677-1 * 18 12 09.5673393288 +63 29 42.261965880   11.94 12.01     A3V 20 0
38 * alf Lyr dS* 18 36 56.33635 +38 47 01.2802 0.03 0.03 0.03 0.07 0.10 A0Va 2688 1
39 HD 180609 * 19 12 47.1996312336 +64 10 37.176952476   9.57 9.42     A0V 27 0
40 * 16 Cyg ** 19 41 49.09 +50 31 31.6           ~ 153 0
41 * 16 Cyg B PM* 19 41 51.9726777456 +50 31 03.089030916 7.07 6.86 6.20 5.76 5.42 G3V 893 1
42 LAWD 87 WD* 21 32 16.2327040616 +00 15 14.399267982 13.717 14.634 14.674 14.675 14.676 DB4 185 1
43 HD 205905 PM* 21 39 10.1509511673 -27 18 23.662643353   7.36 6.74     G1.5IV-V 100 0
44 * 10 Lac ** 22 39 15.6786372 +39 03 00.971152 3.650 4.670 4.880 4.98 5.19 O9V 758 0

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