Abstract
Near-infrared array detectors, like the James Webb Space Telescope (JWST) NIRSpec’s Teledyne’s H2RGs, often provide reference pixels and a reference output. These are used to remove correlated noise. Improved reference sampling and subtraction (IRS2) is a statistical technique for using this reference information optimally in a least-squares sense. Compared with the traditional H2RG readout, IRS2 uses a different clocking pattern to interleave many more reference pixels into the data than is otherwise possible. Compared with standard reference correction techniques, IRS2 subtracts the reference pixels and reference output using a statistically optimized set of frequency-dependent weights. The benefits include somewhat lower noise variance and much less obvious correlated noise. NIRSpec’s IRS2 images are cosmetically clean, with less banding than in traditional data from the same system. This article describes the IRS2 clocking pattern and presents the equations needed to use IRS2 in systems other than NIRSpec. For NIRSpec, applying these equations is already an option in the calibration pipeline. As an aid to instrument builders, we provide our prototype IRS2 calibration software and sample JWST NIRSpec data. The same techniques are applicable to other detector systems, including those based on Teledyne’s H4RG arrays. The H4RG’s interleaved reference pixel readout mode is effectively one IRS2 pattern.
Highlights
The Near Infrared Spectrograph (NIRSpec; Birkmann et al 2016) is the James Webb Space Telescope’s (JWST) primary 0.6 − 5 μm spectrograph
Due to the low background provided by the observatory and the low dark current rates of the detectors, NIRSpec will be detector noise limited for most faint object observations
We developed Improved Reference Sampling and Subtraction (IRS2; pronounced “IRS-square”) to reduce the read noise of NIRSpec’s Teledyne SIDECARTM ASIC and H2RG based detector system to below what is possible in JWST’s traditional “MULTIACCUM” readout (Rauscher et al 2007)
Summary
The Near Infrared Spectrograph (NIRSpec; Birkmann et al 2016) is the James Webb Space Telescope’s (JWST) primary 0.6 − 5 μm spectrograph. For astronomical detector systems that: (1) are linear, (2) have read noise that is statistically independent of time, and (3) have gaussian read noise after reference correction; IRS2 provides the best possible reference correction when least squares is used as the figure of merit. Even using these techniques, early trade studies revealed that the flight system had significant correlated noise extending from DC up to ∼ 3 kHz on the low frequency side and at the 50 kHz Nyquist frequency. This “hands-on” information provides better insight into the details than any narrative can hope to achieve
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