Patricia A. Losch scite author profile

The Infrared Array Camera (IRAC) is one of three focal plane instruments in the Spitzer Space Telescope. IRAC is a four-channel camera that obtains simultaneous broad-band images at 3.6, 4.5, 5.8, and 8.0 µm. Two nearly adjacent 5.2×5.2 arcmin fields of view in the focal plane are viewed by the four channels in pairs (3.6 and 5.8 µm; 4.5 and 8 µm). All four detector arrays in the camera are 256×256 pixels in size, with the two shorter wavelength channels using InSb and the two longer wavelength channels using Si:As IBC detectors. IRAC is a powerful survey instrument because of its high sensitivity, large field of view, and four-color imaging. This paper summarizes the in-flight scientific, technical, and operational performance of IRAC.

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<title>Cryogenic optical performance of the Cassini composite infrared spectrometer (CIRS) flight telescope</title>

Losch

Lyons

Hagopian

1998

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The CIRS half-meter diameter beryllium flight telescope's optical performance was tested at the instrument operating temperature of 170 Kelvin. The telescope components were designed at Goddard Space Flight Center (GSFC) but fabricated out of house and then assembled, aligned and tested upon receipt at GSFC. A 24 inch aperture cryogenic test facility utilizing a 1024 x 1024 CCD array was developed at GSFC specifically for this test. The telescope's image quality (measured as encircled energy), boresight stability and focus stability were measured. The gold coated beryllium design exceeded the cold image performance requirement of 80% encircled energy within a 460 micron diameter circle.

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<title>Shear/defocus sensitivity of the mid-infrared channel (MIR) of the composite infrared spectometer (CIRS) for the Cassini mission to Saturn</title>

Hagopian

Losch

Crooke

et al. 1998

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<title>Maintaining flatness of a large-aperture potassium bromide beamsplitter through mounting and vibration</title>

Losch

Lyons

Morrell

et al. 1998

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The Composite Infrared Spectrometer (CIRS) instrument on the Cassini Mission launched in October of 1997. The CIRS instrument contains a mid-infrared (MIR) and a far-infrared interferometer (FIR) and operates at 170 Kelvin. The MIR is a Michelson Fourier transform spectrometer utilizing a 76 mm (3 inch) diameter potassium bromide beamsplitter and compensator pair.The potassium bromide elements were tested to verify effects of cooldown and vibration prior to integration into the instrument. The instrument was then aligned at ambient temperatures, tested cryogenically and re-verified after vibration.The stringent design optical figure requirements for the beamsplitter and compensator included fabrication errors, mounting stresses and vibration load effects. This paper describes the challenges encountered in mounting the elements to minimize distortion and to survive vibration.

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<title>Throughput of the composite infrared spectrometer (CIRS) mid-infrared (MIR) channel for the Cassini mission to Saturn</title>

Hagopian

Losch

Stewart

et al. 1998

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Patricia A. Losch

The Infrared Array Camera (IRAC) for the Spitzer Space Telescope

<title>Cryogenic optical performance of the Cassini composite infrared spectrometer (CIRS) flight telescope</title>

<title>Shear/defocus sensitivity of the mid-infrared channel (MIR) of the composite infrared spectometer (CIRS) for the Cassini mission to Saturn</title>

<title>Maintaining flatness of a large-aperture potassium bromide beamsplitter through mounting and vibration</title>

<title>Throughput of the composite infrared spectrometer (CIRS) mid-infrared (MIR) channel for the Cassini mission to Saturn</title>

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