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Premium member Presentation Transcript Introduction into the Absorption Channels: Introduction into the Absorption Channels Description of characteristics and content of the Ozone channel: Ch08: 9.7 Contact person: Veronika Zwatz-Meise zwatz-meise@zamg.ac.at Version 1.0. 13 July 2004All MSG channels: All MSG channels Channel 01: VIS 0.6 Channel 02: VIS 0.8 Channel 03: NIR 1.6 Channel 04: MIR 3.9 Channel 05 WV 6.2 Channel 06: WV 7.3 Channel 07: IR 8.7 Channel 08: IR 9.7 („Ozon“) Channel 09: IR 10.8 Channel 10: IR 12.0 Channel 11: IR 13.4 („CO2“) Chanell 12: HRV (High Resolution Visible) „Ozone channel“ Ch08: 9.7 m : „Ozone channel“ Ch08: 9.7 m Slide4: Sun radiation Earth radiation Ch08: 9.7 Wavelength (micron) Watt/ m2 and micron Ozone Carbon dioxid Water vapourComparison of radiation sources sun - earth: Comparison of radiation sources sun - earth For wave length < 5 m solar radiation is dominant For wave length > 5 m radiation of earth is dominant only VIS VIS + IR only IR Ch01, 02, 03, 12: only sun radiation Ch04: both: radiation from sun and earth Ch 05, 06, 07, 08, 09, 10, 11: only thermal earth radiation Sun radiation Earth radiation Watt/ m2 and micron Application areas for the Ozone channel : Application areas for the Ozone channel Qualitative application of images: No well-known additional features compared to the IR window channels But new feature detected: White stripes Stripes are „white“ in case of the inverted presentation of the image They are a measure for high stratospheric Ozone concentrations which have protruded relatively far down into the troposphere Quantitative applications: The computation of quantitative Ozone values will be a future task Slide8: Ch08 is in the centre of the O3 absorption band around 9 Energy spectrum Source: EUMETSAT Ch08 Slide9: Figure 3c Signals from lower parts of troposphere; But: Secondary maximum from higher than 100 hPa Weighting functions Source: EUMETSAT Slide10: Figure 3d Signals from lower parts of troposphere; But: Secondary maximum from higher than 100 hPa Weighting functions Source: EUMETSAT Ch08: Ozonechannel, 9.66: Ch08: Ozonechannel, 9.66 Ozone concentration in the lower stratosphere is not regarded as a channel with optically applicable structures But: there are in some situations white stripes in the areas of the black stripes in WV Further: there are structures in the cloud free sea, best seen in this channel„White Stripes“: „White Stripes“ White stripes can only be seen in Ch08, not in Chs 09, 10 They appear in areas of dark stripes in WV (Ch05 and 06) They are accompanied by NWP paramaters typical for low tropopause (tropopause folding): PV low down (for instance 500 hpa) Maximum of shear vorticity at 300 hpa on the cyclonic side of a jet streak Physical meaning of white stripes: high content of Ozone which absorbs the radiation from below and emitts radiation according to 2 nd law of Kirchhoff There are many more situations with low tropopause (tropopause folding) without the white stripe; consequently: White stripes are an optical indication of high stratospheric Ozone in upper tropopsheric heightsCase 4 December 2002 : Case 4 December 2002 Black stripe in WV: Belgium - W-Alps -W-Switzerland - Western Mediterranean Same area shows white stripe in Ch08 Model parameters: PV = 2 unit lower than 400, partly 450 hPa confluence area at 500 and 300 hPa maximum of shear vorticity Slide14: MTP: WVSlide15: WV 6.2 04 December 02/ 12.30 UTC MSG: Ch05, WVSlide16: O3 9.7 04 December 02/ 12.30 UTC MSG: Ch08,OzoneSlide18: Maximum of shear vorticity at 300Slide19: PV = 2 (tropopause) lower than 450 hPaSlide20: Confluence at 500 and 300 hPaCase 9 July 03/0600 UTC: Case 9 July 03/0600 UTC Black stripe in WV: Atlantic; huge low system Same area shows white stripe in Ch08 white stripe not seen in the other IR channels Model parameters: close to jet axis (zeroline of shear vorticity) on cyclonic side maxima of cyclonic shear vorticity PV = 1 lower than 450 in vertical cross section convergence at these levels Slide22: MSG: Ch08,OzoneSlide23: MSG: Ch09, IRSlide24: MSG: Ch05, WVSlide25: At cyclonic side of jet streak at 300Slide26: Maximum of shear vorticity at 300Slide27: PV = 2 (tropopause) lower than 450 hPa You do not have the permission to view this presentation. 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O3guide Modest Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 52 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: February 21, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Introduction into the Absorption Channels: Introduction into the Absorption Channels Description of characteristics and content of the Ozone channel: Ch08: 9.7 Contact person: Veronika Zwatz-Meise zwatz-meise@zamg.ac.at Version 1.0. 13 July 2004All MSG channels: All MSG channels Channel 01: VIS 0.6 Channel 02: VIS 0.8 Channel 03: NIR 1.6 Channel 04: MIR 3.9 Channel 05 WV 6.2 Channel 06: WV 7.3 Channel 07: IR 8.7 Channel 08: IR 9.7 („Ozon“) Channel 09: IR 10.8 Channel 10: IR 12.0 Channel 11: IR 13.4 („CO2“) Chanell 12: HRV (High Resolution Visible) „Ozone channel“ Ch08: 9.7 m : „Ozone channel“ Ch08: 9.7 m Slide4: Sun radiation Earth radiation Ch08: 9.7 Wavelength (micron) Watt/ m2 and micron Ozone Carbon dioxid Water vapourComparison of radiation sources sun - earth: Comparison of radiation sources sun - earth For wave length < 5 m solar radiation is dominant For wave length > 5 m radiation of earth is dominant only VIS VIS + IR only IR Ch01, 02, 03, 12: only sun radiation Ch04: both: radiation from sun and earth Ch 05, 06, 07, 08, 09, 10, 11: only thermal earth radiation Sun radiation Earth radiation Watt/ m2 and micron Application areas for the Ozone channel : Application areas for the Ozone channel Qualitative application of images: No well-known additional features compared to the IR window channels But new feature detected: White stripes Stripes are „white“ in case of the inverted presentation of the image They are a measure for high stratospheric Ozone concentrations which have protruded relatively far down into the troposphere Quantitative applications: The computation of quantitative Ozone values will be a future task Slide8: Ch08 is in the centre of the O3 absorption band around 9 Energy spectrum Source: EUMETSAT Ch08 Slide9: Figure 3c Signals from lower parts of troposphere; But: Secondary maximum from higher than 100 hPa Weighting functions Source: EUMETSAT Slide10: Figure 3d Signals from lower parts of troposphere; But: Secondary maximum from higher than 100 hPa Weighting functions Source: EUMETSAT Ch08: Ozonechannel, 9.66: Ch08: Ozonechannel, 9.66 Ozone concentration in the lower stratosphere is not regarded as a channel with optically applicable structures But: there are in some situations white stripes in the areas of the black stripes in WV Further: there are structures in the cloud free sea, best seen in this channel„White Stripes“: „White Stripes“ White stripes can only be seen in Ch08, not in Chs 09, 10 They appear in areas of dark stripes in WV (Ch05 and 06) They are accompanied by NWP paramaters typical for low tropopause (tropopause folding): PV low down (for instance 500 hpa) Maximum of shear vorticity at 300 hpa on the cyclonic side of a jet streak Physical meaning of white stripes: high content of Ozone which absorbs the radiation from below and emitts radiation according to 2 nd law of Kirchhoff There are many more situations with low tropopause (tropopause folding) without the white stripe; consequently: White stripes are an optical indication of high stratospheric Ozone in upper tropopsheric heightsCase 4 December 2002 : Case 4 December 2002 Black stripe in WV: Belgium - W-Alps -W-Switzerland - Western Mediterranean Same area shows white stripe in Ch08 Model parameters: PV = 2 unit lower than 400, partly 450 hPa confluence area at 500 and 300 hPa maximum of shear vorticity Slide14: MTP: WVSlide15: WV 6.2 04 December 02/ 12.30 UTC MSG: Ch05, WVSlide16: O3 9.7 04 December 02/ 12.30 UTC MSG: Ch08,OzoneSlide18: Maximum of shear vorticity at 300Slide19: PV = 2 (tropopause) lower than 450 hPaSlide20: Confluence at 500 and 300 hPaCase 9 July 03/0600 UTC: Case 9 July 03/0600 UTC Black stripe in WV: Atlantic; huge low system Same area shows white stripe in Ch08 white stripe not seen in the other IR channels Model parameters: close to jet axis (zeroline of shear vorticity) on cyclonic side maxima of cyclonic shear vorticity PV = 1 lower than 450 in vertical cross section convergence at these levels Slide22: MSG: Ch08,OzoneSlide23: MSG: Ch09, IRSlide24: MSG: Ch05, WVSlide25: At cyclonic side of jet streak at 300Slide26: Maximum of shear vorticity at 300Slide27: PV = 2 (tropopause) lower than 450 hPa