High accuracy spectroradiometry of solar UV radiation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Gunther Seckmeyer
  • Germar Bernhard
  • Bernhard Mayer
  • R Erb
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Details

OriginalspracheDeutsch
FachzeitschriftMETROLOGIA
Jahrgang32
PublikationsstatusVeröffentlicht - 1 Dez. 1995

Abstract

he study of ultraviolet effects on the biosphere requires an accurate knowledge of UV-B irradiances reaching the Earth's surface. Here we present the technical specifications and the performance of a spectroradiometer for the highly accurate determination of actual UV levels. The sensitivity, the spectral resolution and the wavelength accuracy of the instrument, as well as results from a series of intercomparisons, justify use of the term ''highaccuracy''. Spectroradiometric measurements made with our instrument in Germany and New Zealand show that the decreasing stratospheric ozone levels in both hemispheres, and the increasing tropospheric ozone levels in Germany, have led to significant differences in UV-B radiation between Germany and New Zealand. The ratios of the weighted irradiances range from 1,5 to 2, depending on the biological weighting function, in clear-sky summer conditions. A comparison of spectral UV measurements in Germany between 1992 and 1993 showed enhanced levels of UV-B radiation in the late spring and early summer of 1993 caused by reduced total ozone columns. The monthly averaged total ozone columns in 1993 were the lowest since ozone levels were systematically recorded in Germany. The data also show that UV-A radiation was lower in 1993 than in 1992, due to differences in cloudiness between the two years.

Zitieren

High accuracy spectroradiometry of solar UV radiation. / Seckmeyer, Gunther; Bernhard, Germar; Mayer, Bernhard et al.
in: METROLOGIA, Jahrgang 32, 01.12.1995.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Seckmeyer G, Bernhard G, Mayer B, Erb R. High accuracy spectroradiometry of solar UV radiation. METROLOGIA. 1995 Dez 1;32. doi: 10.1088/0026-1394/32/6/61
Seckmeyer, Gunther ; Bernhard, Germar ; Mayer, Bernhard et al. / High accuracy spectroradiometry of solar UV radiation. in: METROLOGIA. 1995 ; Jahrgang 32.
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title = "High accuracy spectroradiometry of solar UV radiation",
abstract = "he study of ultraviolet effects on the biosphere requires an accurate knowledge of UV-B irradiances reaching the Earth's surface. Here we present the technical specifications and the performance of a spectroradiometer for the highly accurate determination of actual UV levels. The sensitivity, the spectral resolution and the wavelength accuracy of the instrument, as well as results from a series of intercomparisons, justify use of the term ''highaccuracy''. Spectroradiometric measurements made with our instrument in Germany and New Zealand show that the decreasing stratospheric ozone levels in both hemispheres, and the increasing tropospheric ozone levels in Germany, have led to significant differences in UV-B radiation between Germany and New Zealand. The ratios of the weighted irradiances range from 1,5 to 2, depending on the biological weighting function, in clear-sky summer conditions. A comparison of spectral UV measurements in Germany between 1992 and 1993 showed enhanced levels of UV-B radiation in the late spring and early summer of 1993 caused by reduced total ozone columns. The monthly averaged total ozone columns in 1993 were the lowest since ozone levels were systematically recorded in Germany. The data also show that UV-A radiation was lower in 1993 than in 1992, due to differences in cloudiness between the two years. ",
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Download

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T1 - High accuracy spectroradiometry of solar UV radiation

AU - Seckmeyer, Gunther

AU - Bernhard, Germar

AU - Mayer, Bernhard

AU - Erb, R

PY - 1995/12/1

Y1 - 1995/12/1

N2 - he study of ultraviolet effects on the biosphere requires an accurate knowledge of UV-B irradiances reaching the Earth's surface. Here we present the technical specifications and the performance of a spectroradiometer for the highly accurate determination of actual UV levels. The sensitivity, the spectral resolution and the wavelength accuracy of the instrument, as well as results from a series of intercomparisons, justify use of the term ''highaccuracy''. Spectroradiometric measurements made with our instrument in Germany and New Zealand show that the decreasing stratospheric ozone levels in both hemispheres, and the increasing tropospheric ozone levels in Germany, have led to significant differences in UV-B radiation between Germany and New Zealand. The ratios of the weighted irradiances range from 1,5 to 2, depending on the biological weighting function, in clear-sky summer conditions. A comparison of spectral UV measurements in Germany between 1992 and 1993 showed enhanced levels of UV-B radiation in the late spring and early summer of 1993 caused by reduced total ozone columns. The monthly averaged total ozone columns in 1993 were the lowest since ozone levels were systematically recorded in Germany. The data also show that UV-A radiation was lower in 1993 than in 1992, due to differences in cloudiness between the two years.

AB - he study of ultraviolet effects on the biosphere requires an accurate knowledge of UV-B irradiances reaching the Earth's surface. Here we present the technical specifications and the performance of a spectroradiometer for the highly accurate determination of actual UV levels. The sensitivity, the spectral resolution and the wavelength accuracy of the instrument, as well as results from a series of intercomparisons, justify use of the term ''highaccuracy''. Spectroradiometric measurements made with our instrument in Germany and New Zealand show that the decreasing stratospheric ozone levels in both hemispheres, and the increasing tropospheric ozone levels in Germany, have led to significant differences in UV-B radiation between Germany and New Zealand. The ratios of the weighted irradiances range from 1,5 to 2, depending on the biological weighting function, in clear-sky summer conditions. A comparison of spectral UV measurements in Germany between 1992 and 1993 showed enhanced levels of UV-B radiation in the late spring and early summer of 1993 caused by reduced total ozone columns. The monthly averaged total ozone columns in 1993 were the lowest since ozone levels were systematically recorded in Germany. The data also show that UV-A radiation was lower in 1993 than in 1992, due to differences in cloudiness between the two years.

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SN - 0026-1394

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