Improving the twilight model for polar cap absorption nowcasts

We acknowledge the efforts of Don Wallis who was principally responsible for the scientific operation of the CANOPUS riometer array and the NORSTAR team for providing the riometer data used in this study, which are available from ftp://aurora.phys.ucalgary.ca/data/riometer/. SGO riometer measurement...

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Published in:Space Weather
Main Authors: Rogers, N. C., Kero, A., Honary, F., Verronen, P. T., Warrington, E. M., Danskin, D. W.
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union (AGU), Wiley 2016
Subjects:
Kilpisjärvi
Canopus
Turunen
Lapland
Online Access:http://onlinelibrary.wiley.com/doi/10.1002/2016SW001527/abstract
http://hdl.handle.net/2381/38479
https://doi.org/10.1002/2016SW001527
id ftleicester:oai:lra.le.ac.uk:2381/38479
record_format openpolar
institution Open Polar
collection University of Leicester: Leicester Research Archive (LRA)
op_collection_id ftleicester
language English
description We acknowledge the efforts of Don Wallis who was principally responsible for the scientific operation of the CANOPUS riometer array and the NORSTAR team for providing the riometer data used in this study, which are available from ftp://aurora.phys.ucalgary.ca/data/riometer/. SGO riometer measurements are available from http://www.sgo.fi/Data/Riometer/rioData.php, and IRIS (Kilpisjärvi) riometer data are available from http://spears.lancs.ac.uk/data/request.html. NRCan riometer data are provided as a data set in the supporting information and are also available on request from Donald.Danskin@Canada.ca. We also acknowledge the U.S. National Geophysical Data Centre for providing GOES satellite data, available from http://satdat.ngdc.noaa.gov/sem/, and Kp geomagnetic and solar activity indices, available from ftp://ftp.ngdc.noaa.gov. Dst geomagnetic indices were provided by the World Data Centre for Geomagnetism, Kyoto (http://wdc.kugi.kyoto-u.ac.jp/dstdir/). During solar proton events (SPE), energetic protons ionize the polar mesosphere causing HF radio wave attenuation, more strongly on the dayside where the effective recombination coefficient, αeff, is low. Polar cap absorption models predict the 30 MHz cosmic noise absorption, A, measured by riometers, based on real-time measurements of the integrated proton flux-energy spectrum, J. However, empirical models in common use cannot account for regional and day-to-day variations in the daytime and nighttime profiles of αeff(z) or the related sensitivity parameter, m = A / sqrt(J). Large prediction errors occur during twilight when m changes rapidly, and due to errors locating the rigidity cutoff latitude. Modeling the twilight change in m as a linear or Gauss error-function transition over a range of solar-zenith angles (χl < χ < χu) provides a better fit to measurements than selecting day or night αeff profiles based on the Earth-shadow height. Optimal model parameters were determined for several polar cap riometers for large SPEs in 1998–2005. The optimal χl parameter was found to be most variable, with smaller values (as low as 60°) postsunrise compared with presunset and with positive correlation between riometers over a wide area. Day and night values of m exhibited higher correlation for closely spaced riometers. A nowcast simulation is presented in which rigidity boundary latitude and twilight model parameters are optimized by assimilating age-weighted measurements from 25 riometers. The technique reduces model bias, and root-mean-square errors are reduced by up to 30% compared with a model employing no riometer data assimilation. This work was funded by the UK Engineering and Physical Sciences Research Council grants EP/K007971/1 and EP/K008781/1. A. Kero was supported by the European Regional Development Fund (Regional Council of Lapland, decision number A70179). The work of P.T. Verronen was funded by the Academy of Finland project 276926 (SECTIC: Sun-Earth Connection Through Ion Chemistry). The authors wish to thank Esa Turunen (SGO) for helpful discussions and assistance. Operational support for the Canadian Auroral Network for the OPEN Program Unified Study (CANOPUS)/NORSTAR instrument array was provided by the Canadian Space Agency Peer-reviewed Publisher Version
format Article in Journal/Newspaper
author Rogers, N. C.
Kero, A.
Honary, F.
Verronen, P. T.
Warrington, E. M.
Danskin, D. W.
spellingShingle Rogers, N. C.
Kero, A.
Honary, F.
Verronen, P. T.
Warrington, E. M.
Danskin, D. W.
Improving the twilight model for polar cap absorption nowcasts
author_facet Rogers, N. C.
Kero, A.
Honary, F.
Verronen, P. T.
Warrington, E. M.
Danskin, D. W.
author_sort Rogers, N. C.
title Improving the twilight model for polar cap absorption nowcasts
title_short Improving the twilight model for polar cap absorption nowcasts
title_full Improving the twilight model for polar cap absorption nowcasts
title_fullStr Improving the twilight model for polar cap absorption nowcasts
title_full_unstemmed Improving the twilight model for polar cap absorption nowcasts
title_sort improving the twilight model for polar cap absorption nowcasts
publisher American Geophysical Union (AGU), Wiley
publishDate 2016
url http://onlinelibrary.wiley.com/doi/10.1002/2016SW001527/abstract
http://hdl.handle.net/2381/38479
https://doi.org/10.1002/2016SW001527
long_lat ENVELOPE(20.767,20.767,69.034,69.034)
ENVELOPE(161.517,161.517,-77.550,-77.550)
ENVELOPE(29.544,29.544,65.524,65.524)
geographic Kilpisjärvi
Canopus
Turunen
geographic_facet Kilpisjärvi
Canopus
Turunen
genre Kilpisjärvi
Lapland
genre_facet Kilpisjärvi
Lapland
op_relation Space Weather, 2016 14
1539-4956
http://onlinelibrary.wiley.com/doi/10.1002/2016SW001527/abstract
http://hdl.handle.net/2381/38479
doi:10.1002/2016SW001527
1542-7390
op_rights ©2016. The Authors. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
op_rightsnorm CC-BY
op_doi https://doi.org/10.1002/2016SW001527
container_title Space Weather
container_volume 14
container_issue 11
container_start_page 950
op_container_end_page 972
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spelling ftleicester:oai:lra.le.ac.uk:2381/38479 2023-05-15T17:03:44+02:00 Improving the twilight model for polar cap absorption nowcasts Rogers, N. C. Kero, A. Honary, F. Verronen, P. T. Warrington, E. M. Danskin, D. W. 2016-11-11T16:58:46Z http://onlinelibrary.wiley.com/doi/10.1002/2016SW001527/abstract http://hdl.handle.net/2381/38479 https://doi.org/10.1002/2016SW001527 en eng American Geophysical Union (AGU), Wiley Space Weather, 2016 14 1539-4956 http://onlinelibrary.wiley.com/doi/10.1002/2016SW001527/abstract http://hdl.handle.net/2381/38479 doi:10.1002/2016SW001527 1542-7390 ©2016. The Authors. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. CC-BY Journal Article Article 2016 ftleicester https://doi.org/10.1002/2016SW001527 2019-03-22T20:22:13Z We acknowledge the efforts of Don Wallis who was principally responsible for the scientific operation of the CANOPUS riometer array and the NORSTAR team for providing the riometer data used in this study, which are available from ftp://aurora.phys.ucalgary.ca/data/riometer/. SGO riometer measurements are available from http://www.sgo.fi/Data/Riometer/rioData.php, and IRIS (Kilpisjärvi) riometer data are available from http://spears.lancs.ac.uk/data/request.html. NRCan riometer data are provided as a data set in the supporting information and are also available on request from Donald.Danskin@Canada.ca. We also acknowledge the U.S. National Geophysical Data Centre for providing GOES satellite data, available from http://satdat.ngdc.noaa.gov/sem/, and Kp geomagnetic and solar activity indices, available from ftp://ftp.ngdc.noaa.gov. Dst geomagnetic indices were provided by the World Data Centre for Geomagnetism, Kyoto (http://wdc.kugi.kyoto-u.ac.jp/dstdir/). During solar proton events (SPE), energetic protons ionize the polar mesosphere causing HF radio wave attenuation, more strongly on the dayside where the effective recombination coefficient, αeff, is low. Polar cap absorption models predict the 30 MHz cosmic noise absorption, A, measured by riometers, based on real-time measurements of the integrated proton flux-energy spectrum, J. However, empirical models in common use cannot account for regional and day-to-day variations in the daytime and nighttime profiles of αeff(z) or the related sensitivity parameter, m = A / sqrt(J). Large prediction errors occur during twilight when m changes rapidly, and due to errors locating the rigidity cutoff latitude. Modeling the twilight change in m as a linear or Gauss error-function transition over a range of solar-zenith angles (χl < χ < χu) provides a better fit to measurements than selecting day or night αeff profiles based on the Earth-shadow height. Optimal model parameters were determined for several polar cap riometers for large SPEs in 1998–2005. The optimal χl parameter was found to be most variable, with smaller values (as low as 60°) postsunrise compared with presunset and with positive correlation between riometers over a wide area. Day and night values of m exhibited higher correlation for closely spaced riometers. A nowcast simulation is presented in which rigidity boundary latitude and twilight model parameters are optimized by assimilating age-weighted measurements from 25 riometers. The technique reduces model bias, and root-mean-square errors are reduced by up to 30% compared with a model employing no riometer data assimilation. This work was funded by the UK Engineering and Physical Sciences Research Council grants EP/K007971/1 and EP/K008781/1. A. Kero was supported by the European Regional Development Fund (Regional Council of Lapland, decision number A70179). The work of P.T. Verronen was funded by the Academy of Finland project 276926 (SECTIC: Sun-Earth Connection Through Ion Chemistry). The authors wish to thank Esa Turunen (SGO) for helpful discussions and assistance. Operational support for the Canadian Auroral Network for the OPEN Program Unified Study (CANOPUS)/NORSTAR instrument array was provided by the Canadian Space Agency Peer-reviewed Publisher Version Article in Journal/Newspaper Kilpisjärvi Lapland University of Leicester: Leicester Research Archive (LRA) Kilpisjärvi ENVELOPE(20.767,20.767,69.034,69.034) Canopus ENVELOPE(161.517,161.517,-77.550,-77.550) Turunen ENVELOPE(29.544,29.544,65.524,65.524) Space Weather 14 11 950 972

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