Standard

Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere. / Hocke, K.; Haefele, A.; Le Drian, C.; Kämpfer, N.; Ruffleux, D.; Von Clarmann, T.; Milz, M.; Steck, T.; Froidevaux, L.; Pumphrey, H. C.; Jimenez, C.; Walker, K. A.; Bernath, P.; Timofeyev, Y. M.; Polyakov, A. V.

в: European Space Agency, (Special Publication) ESA SP, № 628, 01.07.2006.

Результаты исследований: Научные публикации в периодических изданияхстатья в журнале по материалам конференцииРецензирование

Harvard

Hocke, K, Haefele, A, Le Drian, C, Kämpfer, N, Ruffleux, D, Von Clarmann, T, Milz, M, Steck, T, Froidevaux, L, Pumphrey, HC, Jimenez, C, Walker, KA, Bernath, P, Timofeyev, YM & Polyakov, AV 2006, 'Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere', European Space Agency, (Special Publication) ESA SP, № 628.

APA

Hocke, K., Haefele, A., Le Drian, C., Kämpfer, N., Ruffleux, D., Von Clarmann, T., Milz, M., Steck, T., Froidevaux, L., Pumphrey, H. C., Jimenez, C., Walker, K. A., Bernath, P., Timofeyev, Y. M., & Polyakov, A. V. (2006). Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere. European Space Agency, (Special Publication) ESA SP, (628).

Vancouver

Hocke K, Haefele A, Le Drian C, Kämpfer N, Ruffleux D, Von Clarmann T и пр. Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere. European Space Agency, (Special Publication) ESA SP. 2006 Июль 1;(628).

Author

Hocke, K. ; Haefele, A. ; Le Drian, C. ; Kämpfer, N. ; Ruffleux, D. ; Von Clarmann, T. ; Milz, M. ; Steck, T. ; Froidevaux, L. ; Pumphrey, H. C. ; Jimenez, C. ; Walker, K. A. ; Bernath, P. ; Timofeyev, Y. M. ; Polyakov, A. V. / Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere. в: European Space Agency, (Special Publication) ESA SP. 2006 ; № 628.

BibTeX

@article{86f9ed96b9a1497799dd16392e331476,
title = "Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere",
abstract = "Validation of space-based measurements of the atmosphere can be performed by means of long-term data sets from ground stations of the Network for the Detection of Atmospheric Composition Change NDACC (formerly NDSC). We derive the difference profiles of the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, Meteor-3M/SAGE III, and UARS/HALOE with respect to the ground-based microwave radiometers SOMORA and MIAWARA monitoring the volume mixing ratios of ozone and water vapor in the middle atmosphere over Payerne and Bern in Switzerland. The long-term stability of the ground stations allows a cross-validation of space-based measurements from different satellites, years, and solar zenith angles. A good agreement (relative difference < 10%) has been achieved between ENVISAT/MIPAS, Aura/MLS, and SOMORA (all measuring the thermal emission of ozone). The solar occultation experiments SAGE III and ACE/FTS provide ozone values which are 30% higher compared to SOMORA at altitudes 45-60 km. In case of water vapor, a good agreement (< 10%) is found between the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, and HALOE, while the ground station MIAWARA yields water vapor mixing ratios which are 10 -20% smaller at stratospheric heights.",
author = "K. Hocke and A. Haefele and {Le Drian}, C. and N. K{\"a}mpfer and D. Ruffleux and {Von Clarmann}, T. and M. Milz and T. Steck and L. Froidevaux and Pumphrey, {H. C.} and C. Jimenez and Walker, {K. A.} and P. Bernath and Timofeyev, {Y. M.} and Polyakov, {A. V.}",
year = "2006",
month = jul,
day = "1",
language = "English",
journal = "European Space Agency, (Special Publication) ESA SP",
issn = "0379-6566",
publisher = "ESA Publication Division",
number = "628",
note = "1st Atmospheric Science Conference ; Conference date: 08-05-2006 Through 12-05-2006",

}

RIS

TY - JOUR

T1 - Cross-validation of recent satellite and ground-based measurements of ozone and water vapor in the middle atmosphere

AU - Hocke, K.

AU - Haefele, A.

AU - Le Drian, C.

AU - Kämpfer, N.

AU - Ruffleux, D.

AU - Von Clarmann, T.

AU - Milz, M.

AU - Steck, T.

AU - Froidevaux, L.

AU - Pumphrey, H. C.

AU - Jimenez, C.

AU - Walker, K. A.

AU - Bernath, P.

AU - Timofeyev, Y. M.

AU - Polyakov, A. V.

PY - 2006/7/1

Y1 - 2006/7/1

N2 - Validation of space-based measurements of the atmosphere can be performed by means of long-term data sets from ground stations of the Network for the Detection of Atmospheric Composition Change NDACC (formerly NDSC). We derive the difference profiles of the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, Meteor-3M/SAGE III, and UARS/HALOE with respect to the ground-based microwave radiometers SOMORA and MIAWARA monitoring the volume mixing ratios of ozone and water vapor in the middle atmosphere over Payerne and Bern in Switzerland. The long-term stability of the ground stations allows a cross-validation of space-based measurements from different satellites, years, and solar zenith angles. A good agreement (relative difference < 10%) has been achieved between ENVISAT/MIPAS, Aura/MLS, and SOMORA (all measuring the thermal emission of ozone). The solar occultation experiments SAGE III and ACE/FTS provide ozone values which are 30% higher compared to SOMORA at altitudes 45-60 km. In case of water vapor, a good agreement (< 10%) is found between the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, and HALOE, while the ground station MIAWARA yields water vapor mixing ratios which are 10 -20% smaller at stratospheric heights.

AB - Validation of space-based measurements of the atmosphere can be performed by means of long-term data sets from ground stations of the Network for the Detection of Atmospheric Composition Change NDACC (formerly NDSC). We derive the difference profiles of the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, Meteor-3M/SAGE III, and UARS/HALOE with respect to the ground-based microwave radiometers SOMORA and MIAWARA monitoring the volume mixing ratios of ozone and water vapor in the middle atmosphere over Payerne and Bern in Switzerland. The long-term stability of the ground stations allows a cross-validation of space-based measurements from different satellites, years, and solar zenith angles. A good agreement (relative difference < 10%) has been achieved between ENVISAT/MIPAS, Aura/MLS, and SOMORA (all measuring the thermal emission of ozone). The solar occultation experiments SAGE III and ACE/FTS provide ozone values which are 30% higher compared to SOMORA at altitudes 45-60 km. In case of water vapor, a good agreement (< 10%) is found between the satellite experiments ENVISAT/MIPAS, Aura/MLS, ACE/FTS, and HALOE, while the ground station MIAWARA yields water vapor mixing ratios which are 10 -20% smaller at stratospheric heights.

UR - http://www.scopus.com/inward/record.url?scp=33749161427&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:33749161427

JO - European Space Agency, (Special Publication) ESA SP

JF - European Space Agency, (Special Publication) ESA SP

SN - 0379-6566

IS - 628

T2 - 1st Atmospheric Science Conference

Y2 - 8 May 2006 through 12 May 2006

ER -

ID: 36221459