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Hauptverfasser: Norton, A. A., Duvall, Jr., T. L., Schou, J., Bogart, R. S., Zhao, J., Rabello-Soares, C., Levens, P. J., Hoeksema, J. T., Baldner, C. S.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.13348
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author Norton, A. A.
Duvall, Jr., T. L.
Schou, J.
Bogart, R. S.
Zhao, J.
Rabello-Soares, C.
Levens, P. J.
Hoeksema, J. T.
Baldner, C. S.
author_facet Norton, A. A.
Duvall, Jr., T. L.
Schou, J.
Bogart, R. S.
Zhao, J.
Rabello-Soares, C.
Levens, P. J.
Hoeksema, J. T.
Baldner, C. S.
contents We report a point spread function (PSF) and deconvolution procedure to remove stray light from the Helioseismic and Magnetic Imager (HMI) data. Pre-launch calibration observations, post-launch Venus transit and lunar transit data were used to develop the PSF and evaluate how well it reproduced the observed scattering. The PSF reported differs from previous stray light removal efforts since we do not use Gaussians as the central mathematical component. Instead, we use a Lorenztian convolved with an Airy function. In 2018, the HMI team began providing full-disk, stray-light-corrected data daily. Intensity, Doppler, magnetogram, and vector magnetic field data are provided. The deconvolution uses a Richardson-Lucy algorithm and takes less than one second per full-disk image. The results, on average, show decreases in umbral continuum intensity, a doubling of the granulation intensity contrast, increases in the total field strength, most notably in plage by $\sim$1.4--2.5 the original value, and a partial correction for the convective blueshift. Local helioseismology analyses using corrected data yield results that are consistent with those from uncorrected data, with only negligible differences, except in sunspot regions. The new data are found in JSOC with names similar to the original but with the qualifying term '$\_dcon$' or '$\_dconS$' appended, denoting whether the deconvolution was applied to the filtergrams or Stokes images. The HMI team recommends using the corrected data for improved visual clarity, more accurate irradiance reconstruction, better co-alignment with high-resolution data, reduced errors in tracking algorithms, and improved magnetic field strengths.
format Preprint
id arxiv_https___arxiv_org_abs_2511_13348
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Stray Light Correction for the Helioseismic and Magnetic Imager
Norton, A. A.
Duvall, Jr., T. L.
Schou, J.
Bogart, R. S.
Zhao, J.
Rabello-Soares, C.
Levens, P. J.
Hoeksema, J. T.
Baldner, C. S.
Solar and Stellar Astrophysics
We report a point spread function (PSF) and deconvolution procedure to remove stray light from the Helioseismic and Magnetic Imager (HMI) data. Pre-launch calibration observations, post-launch Venus transit and lunar transit data were used to develop the PSF and evaluate how well it reproduced the observed scattering. The PSF reported differs from previous stray light removal efforts since we do not use Gaussians as the central mathematical component. Instead, we use a Lorenztian convolved with an Airy function. In 2018, the HMI team began providing full-disk, stray-light-corrected data daily. Intensity, Doppler, magnetogram, and vector magnetic field data are provided. The deconvolution uses a Richardson-Lucy algorithm and takes less than one second per full-disk image. The results, on average, show decreases in umbral continuum intensity, a doubling of the granulation intensity contrast, increases in the total field strength, most notably in plage by $\sim$1.4--2.5 the original value, and a partial correction for the convective blueshift. Local helioseismology analyses using corrected data yield results that are consistent with those from uncorrected data, with only negligible differences, except in sunspot regions. The new data are found in JSOC with names similar to the original but with the qualifying term '$\_dcon$' or '$\_dconS$' appended, denoting whether the deconvolution was applied to the filtergrams or Stokes images. The HMI team recommends using the corrected data for improved visual clarity, more accurate irradiance reconstruction, better co-alignment with high-resolution data, reduced errors in tracking algorithms, and improved magnetic field strengths.
title Stray Light Correction for the Helioseismic and Magnetic Imager
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2511.13348