W. A. Wheaton scite author profile

Element-by-element we have combined the optical components in the three 2MASS cameras, and incorporated detector quantum efficiency curves and site-specific atmospheric transmissions, to create three relative spectral response curves (RSRs). We provide the absolute 2MASS attributes associated with "zero magnitude" in the JHK s bands so that these RSRs may be used for synthetic photometry. The RSRs tie 2MASS to the "Cohen-Walker-Witteborn" framework of absolute photometry and stellar spectra for the purpose of using 2MASS data to support the development of absolute calibrators for IRAC and pairwise cross-calibrators between all three SIRTF instruments. We examine the robustness of these RSRs to changes in water vapor within a night. We compare the observed 2MASS magnitudes of thirty three stars (converted from the precision optical calibrators of Landolt and Carter-Meadows into absolute infrared (IR) calibrators from 1.2-35 µm) with our predictions, thereby deriving 2MASS "zero point offsets" from the ensemble. These offsets are the final ingredients essential to merge 2MASS JHK s data with our other absolutely calibrated bands and stellar spectra, and to support the creation of faint calibration stars for SIRTF.

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The Multiband Imaging Photometer for Spitzer (MIPS)

Rieke

Young

Engelbracht

et al. 2004

ASTROPHYS J SUPPL S

1,817

271

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The Multiband Imaging Photometer for Spitzer (MIPS) provides long-wavelength capability for the mission in imaging bands at 24, 70, and 160 m and measurements of spectral energy distributions between 52 and 100 m at a spectral resolution of about 7%. By using true detector arrays in each band, it provides both critical sampling of the Spitzer point-spread function and relatively large imaging fields of view, allowing for substantial advances in sensitivity, angular resolution, and efficiency of areal coverage compared with previous space far-infrared capabilities. The 24 m array has excellent photometric properties, and measurements with rms relative errors of about 1% can be obtained. The two longer-wavelength arrays use detectors with poor photometric stability, but a system of onboard stimulators used for relative calibration, combined with a unique data pipeline, produce good photometry with rms relative errors of less than 10%.

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Absolute Calibration and Characterization of the Multiband Imaging Photometer forSpitzer. I. The Stellar Calibrator Sample and the 24 μm Calibration

Engelbracht¹,

Blaylock²,

Su³

et al. 2007

PUBL ASTRON SOC PAC

276

157

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We present the stellar calibrator sample and the conversion from instrumental to physical units for the 24 µm channel of the Multiband Imaging Photometer for Spitzer (MIPS). The primary calibrators are A stars, and the calibration factor based on those stars is 4.54 × 10 −2 MJy sr −1 (DN/s) −1 , with a nominal uncertainty of 2%. We discuss the data-reduction procedures required to attain this accuracy; without these procdures, the calibration factor obtained using the automated pipeline at the Spitzer Science Center is 1.6%±0.6% lower. We extend this work to predict 24 µm flux densities for a sample of 238 stars which covers a larger range of flux densities and spectral types. We present a total of 348 measurements of 141 stars at 24 µm. This sample covers a factor of ∼ 460 in 24 µm flux density, from 8.6 mJy up to 4.0 Jy. We show that the calibration is linear over that range with respect to target flux and background level. The calibration is based on observations made using 3-second exposures; a preliminary analysis shows that the calibration factor may be 1% and 2% lower for 10-and 30-second exposures, respectively. We also demonstrate that the calibration is very stable: over the course of the mission, repeated measurements of our routine calibrator, HD 159330, show a root-mean-square scatter of only 0.4%. Finally, we show that the point spread function (PSF) is well measured and allows us to calibrate extended sources accurately; Infrared Astronomy Satellite (IRAS) and MIPS measurements of a sample of nearby galaxies are identical within the uncertainties.

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HEAO 3 discovery of Al-26 in the interstellar medium

Mahoney

Ling²,

Wheaton³

et al. 1984

ApJ

260

116

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W. A. Wheaton

Spectral Irradiance Calibration in the Infrared. XIV. The Absolute Calibration of 2MASS

The Multiband Imaging Photometer for Spitzer (MIPS)

Absolute Calibration and Characterization of the Multiband Imaging Photometer forSpitzer. I. The Stellar Calibrator Sample and the 24 μm Calibration

HEAO 3 discovery of Al-26 in the interstellar medium

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