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Autori principali: Griffiths, Ryan, Bardou, Lisa, Butterley, Timothy, Osborn, James, Wilson, Richard, Bustos, Edison, Tokovinin, Andrei, Louarn, Miska Le, Otarola, Angel
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2402.09144
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author Griffiths, Ryan
Bardou, Lisa
Butterley, Timothy
Osborn, James
Wilson, Richard
Bustos, Edison
Tokovinin, Andrei
Louarn, Miska Le
Otarola, Angel
author_facet Griffiths, Ryan
Bardou, Lisa
Butterley, Timothy
Osborn, James
Wilson, Richard
Bustos, Edison
Tokovinin, Andrei
Louarn, Miska Le
Otarola, Angel
contents A six-night optical turbulence monitoring campaign has been carried at Cerro Paranal observatory in February and March, 2023 to facilitate the development and characterisation of two novel atmospheric site monitoring instruments - the ring-image next generation scintillation sensor (RINGSS) and 24-hour Shack Hartmann image motion monitor (24hSHIMM) in the context of providing optical turbulence monitoring support for upcoming 20-40m telescopes. Alongside these two instruments, the well-characterised Stereo-SCIDAR and 2016-MASS-DIMM were operated throughout the campaign to provide data for comparison. All instruments obtain estimates of optical turbulence profiles through statistical analysis of intensity and wavefront angle-of-arrival fluctuations from observations of stars. Contemporaneous measurements of the integrated turbulence parameters are compared and the ratios, bias, unbiased root mean square error and correlation of results from each instrument assessed. Strong agreement was observed in measurements of seeing, free atmosphere seeing and coherence time. Less correlation is seen for isoplanatic angle, although the median values agree well. Median turbulence parameters are further compared against long-term monitoring data from Paranal instruments. Profiles from the three small-telescope instruments are compared with the 100-layer profile from the stereo-SCIDAR. It is found that the RINGSS and SHIMM offer improved accuracy in characterisation of the vertical optical turbulence profile over the MASS-DIMM. Finally, the first results of continuous optical turbulence monitoring at Paranal are presented which show a strong diurnal variation and predictable trend in the seeing. A value of 2.65" is found for the median daytime seeing.
format Preprint
id arxiv_https___arxiv_org_abs_2402_09144
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A comparison of next-generation turbulence profiling instruments at Paranal
Griffiths, Ryan
Bardou, Lisa
Butterley, Timothy
Osborn, James
Wilson, Richard
Bustos, Edison
Tokovinin, Andrei
Louarn, Miska Le
Otarola, Angel
Instrumentation and Methods for Astrophysics
A six-night optical turbulence monitoring campaign has been carried at Cerro Paranal observatory in February and March, 2023 to facilitate the development and characterisation of two novel atmospheric site monitoring instruments - the ring-image next generation scintillation sensor (RINGSS) and 24-hour Shack Hartmann image motion monitor (24hSHIMM) in the context of providing optical turbulence monitoring support for upcoming 20-40m telescopes. Alongside these two instruments, the well-characterised Stereo-SCIDAR and 2016-MASS-DIMM were operated throughout the campaign to provide data for comparison. All instruments obtain estimates of optical turbulence profiles through statistical analysis of intensity and wavefront angle-of-arrival fluctuations from observations of stars. Contemporaneous measurements of the integrated turbulence parameters are compared and the ratios, bias, unbiased root mean square error and correlation of results from each instrument assessed. Strong agreement was observed in measurements of seeing, free atmosphere seeing and coherence time. Less correlation is seen for isoplanatic angle, although the median values agree well. Median turbulence parameters are further compared against long-term monitoring data from Paranal instruments. Profiles from the three small-telescope instruments are compared with the 100-layer profile from the stereo-SCIDAR. It is found that the RINGSS and SHIMM offer improved accuracy in characterisation of the vertical optical turbulence profile over the MASS-DIMM. Finally, the first results of continuous optical turbulence monitoring at Paranal are presented which show a strong diurnal variation and predictable trend in the seeing. A value of 2.65" is found for the median daytime seeing.
title A comparison of next-generation turbulence profiling instruments at Paranal
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2402.09144