Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance

Publikation: Beitrag in FachzeitschriftArtikelTransferPeer-Review

Autoren

  • Mario Tobar-Foster
  • Eduardo Weide Luiz
  • Angelika Niedzwiedz
  • Jens Duffert
  • Gunther Seckmeyer

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Details

OriginalspracheEnglisch
Aufsatznummer12 (2021)
Seitenumfang15
FachzeitschriftEPJ Techniques and Instrumentation
Jahrgang8
PublikationsstatusVeröffentlicht - 28 Juli 2021

Abstract

Despite its importance, few instruments are able to measure the angular distribution of the solar spectrum with a high spectral and temporal resolution. We present a novel characterization method of the multi-directional entrance optics of the AMUDIS (Advanced MUltiDIrectional Spectroradiometer) which is a multidirectional spectroradiometer based on three CCD image sensors combined with imaging spectrographs. The new type of entrance optics consists of 435 different optical fibres uniformly distributed along 145 directions covering the upper hemisphere and allowing simultaneous measurements of the radiance in the ultraviolet, visible and near infrared part of the spectrum, ranging from 280 nm to 1700 nm. The experimental setup for characterizing the multidirectional entrance optics is based on a 100 W halogen lamp and a robotic arm, which moves the lamp tangentially over the surface of a virtual sphere of 102.5 cm radius around the entrance optics. The characterization revealed misalignments in the position of the optical fibres of up to 3∘ (which can affect radiance measurements, specially under broken clouds conditions). The novel characterization method improved 3-fold the alignment up to ±0.1∘

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Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance. / Tobar-Foster, Mario; Weide Luiz, Eduardo; Niedzwiedz, Angelika et al.
in: EPJ Techniques and Instrumentation, Jahrgang 8, 12 (2021), 28.07.2021.

Publikation: Beitrag in FachzeitschriftArtikelTransferPeer-Review

Tobar-Foster, M, Weide Luiz, E, Niedzwiedz, A, Duffert, J & Seckmeyer, G 2021, 'Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance', EPJ Techniques and Instrumentation, Jg. 8, 12 (2021). https://doi.org/10.1140/epjti/s40485-021-00069-4
Tobar-Foster, M., Weide Luiz, E., Niedzwiedz, A., Duffert, J., & Seckmeyer, G. (2021). Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance. EPJ Techniques and Instrumentation, 8, Artikel 12 (2021). https://doi.org/10.1140/epjti/s40485-021-00069-4
Tobar-Foster M, Weide Luiz E, Niedzwiedz A, Duffert J, Seckmeyer G. Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance. EPJ Techniques and Instrumentation. 2021 Jul 28;8:12 (2021). doi: 10.1140/epjti/s40485-021-00069-4
Tobar-Foster, Mario ; Weide Luiz, Eduardo ; Niedzwiedz, Angelika et al. / Characterization of the Angular Response of a Multi-Directional Spectroradiometer for measuring spectral Radiance. in: EPJ Techniques and Instrumentation. 2021 ; Jahrgang 8.
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AU - Tobar-Foster, Mario

AU - Weide Luiz, Eduardo

AU - Niedzwiedz, Angelika

AU - Duffert, Jens

AU - Seckmeyer, Gunther

PY - 2021/7/28

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N2 - Despite its importance, few instruments are able to measure the angular distribution of the solar spectrum with a high spectral and temporal resolution. We present a novel characterization method of the multi-directional entrance optics of the AMUDIS (Advanced MUltiDIrectional Spectroradiometer) which is a multidirectional spectroradiometer based on three CCD image sensors combined with imaging spectrographs. The new type of entrance optics consists of 435 different optical fibres uniformly distributed along 145 directions covering the upper hemisphere and allowing simultaneous measurements of the radiance in the ultraviolet, visible and near infrared part of the spectrum, ranging from 280 nm to 1700 nm. The experimental setup for characterizing the multidirectional entrance optics is based on a 100 W halogen lamp and a robotic arm, which moves the lamp tangentially over the surface of a virtual sphere of 102.5 cm radius around the entrance optics. The characterization revealed misalignments in the position of the optical fibres of up to 3∘ (which can affect radiance measurements, specially under broken clouds conditions). The novel characterization method improved 3-fold the alignment up to ±0.1∘

AB - Despite its importance, few instruments are able to measure the angular distribution of the solar spectrum with a high spectral and temporal resolution. We present a novel characterization method of the multi-directional entrance optics of the AMUDIS (Advanced MUltiDIrectional Spectroradiometer) which is a multidirectional spectroradiometer based on three CCD image sensors combined with imaging spectrographs. The new type of entrance optics consists of 435 different optical fibres uniformly distributed along 145 directions covering the upper hemisphere and allowing simultaneous measurements of the radiance in the ultraviolet, visible and near infrared part of the spectrum, ranging from 280 nm to 1700 nm. The experimental setup for characterizing the multidirectional entrance optics is based on a 100 W halogen lamp and a robotic arm, which moves the lamp tangentially over the surface of a virtual sphere of 102.5 cm radius around the entrance optics. The characterization revealed misalignments in the position of the optical fibres of up to 3∘ (which can affect radiance measurements, specially under broken clouds conditions). The novel characterization method improved 3-fold the alignment up to ±0.1∘

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