Difference between revisions of "Healpix Rings HFI"
m (Lvibert moved page Healpix Rings to Healpix Rings HFI) |
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==General description== | ==General description== | ||
− | The "HEALPix Rings", or HPRs, produced by HFI for the | + | The "HEALPix Rings", or HPRs, produced by HFI for the 2017 data release, are an intermediate product of the [[Map-making|HFI SRoll mapmaking]] process. HPRs are produced by binning the TOI data of a pointing period onto a band of HEALPix map pixels. As a result of this binning, the data volume is reduced by nearly a factor of 20 |
==Production process== | ==Production process== | ||
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For each valid bolometer, HPRs are build for the following quantities. | For each valid bolometer, HPRs are build for the following quantities. | ||
− | ; Signal: The actual signal, after the | + | ; Signal: The actual signal, after the TOI processing and the Sroll solution, after removal of the total dipole and of the bandpass correction. |
; Bandpass: This is the bandpass correction that is calculated and removed from the TOI before building the signal HPR. | ; Bandpass: This is the bandpass correction that is calculated and removed from the TOI before building the signal HPR. | ||
; Dipole: This is the total dipole, i.e., solar + orbital, which is what is used for the flux calibration and then removed from the TOI signal. | ; Dipole: This is the total dipole, i.e., solar + orbital, which is what is used for the flux calibration and then removed from the TOI signal. |
Revision as of 11:06, 28 November 2017
General description[edit]
The "HEALPix Rings", or HPRs, produced by HFI for the 2017 data release, are an intermediate product of the HFI SRoll mapmaking process. HPRs are produced by binning the TOI data of a pointing period onto a band of HEALPix map pixels. As a result of this binning, the data volume is reduced by nearly a factor of 20
Production process[edit]
For each valid bolometer, HPRs are build for the following quantities.
- Signal
- The actual signal, after the TOI processing and the Sroll solution, after removal of the total dipole and of the bandpass correction.
- Bandpass
- This is the bandpass correction that is calculated and removed from the TOI before building the signal HPR.
- Dipole
- This is the total dipole, i.e., solar + orbital, which is what is used for the flux calibration and then removed from the TOI signal.
- Hit count
- The number of TOI samples binned into each ring pixel.
- Phase
- The 1-dimensional phase along the ring.
- φ, θ, and ψ coordinates
- The three coordinates, corresponding to the mean valuees for the TOI samples actually binned into that pixel, as opposed to the pixel coordinates given by the pixelization scheme, and including the position angle ψ.
The bandpass and dipole HPRs should be added to the signal HPRs if the user wants to recalculate the bandpass correction or to redo the calibration using a different determination of the dipole. Otherwise they can be ignored.
File Names[edit]
Files are named
HFI_HPR_353-4a-{signal, bandpass, dipole, hit, phase, phi, theta, psi}_R3.00.fits .
FITS file structure[edit]
The full mission (thus rings 240 to 26050) are stored in a single file as an image of Nrings rows × Npixels columns (25811 × 27664). The image is stored into a single extension of type "IMAGE". The coordinate HPRs are encoded as double precision floating point values in order to maintain the required accuracy; the others are single precision. File sizes are 5.4 and 2.7 GB, respectively.
Note that the pixels of each ring are stored in HEALPix order, not by coordinates or phase. To view the signal along the ring, one can plot it versus phase; a few examples are shown below, where the dipole that has been removed is also shown.
References[edit]
(Hierarchical Equal Area isoLatitude Pixelation of a sphere, <ref name="Template:Gorski2005">HEALPix: A Framework for High-Resolution Discretization and Fast Analysis of Data Distributed on the Sphere, K. M. Górski, E. Hivon, A. J. Banday, B. D. Wandelt, F. K. Hansen, M. Reinecke, M. Bartelmann, ApJ, 622, 759-771, (2005).
(Planck) High Frequency Instrument
Flexible Image Transfer Specification