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Premium member Presentation Transcript IPY core project #63: “Heliosphere impact on geospace”: IPY core project #63: “Heliosphere impact on geospace” Kirsti Kauristie, FMI +IHY and ICESTAR Teams +27 other reseach projects Contents: Contents Background Brief intro of the other 27 consortia Examples of science topics Goals of this meeting Review of the available instrumentation Data sharing issues Virtual observatories IPY4 versus IGY Encouragements and acknowledgements Slide3: International Polar Year (IPY, Mar 2007 – Mar 2009) March 2007 – March 2009, Project Office in BAS (UK) Launched by ICSU and WMO Eight science themes (e.g. Ocean, Ice, Atmosphere, Space) Expressions of Interests (>1000) and core projects (>400) EoIs submitted in January 2005, final endorsements in November 2005 IPY provides support for networking, core funding comes from national sources. Slide4: Heliosphere impact on geospace IPY core project (#63) conducted by ICESTAR, IHY (International Heliophysical Year) and 27 other consortia with scientists from 22 countries. Science about coupling phenomena affected by solar activity and cosmic background radiation Between the different atmospheric layers Between the magnetosphere and ionosphere Between the different hemispheres In addition Development of Virtual Observatories New instrumentation and technology http://www.space.fmi.fi/ipyid63 Slide5: The IPY planning chart IPY project 63: Who are the others?: IPY project 63: Who are the others? Instrument networks (monitoring): EISCAT, SuperDARN, Auroral Optical Network, Riometers, Ionospheric tomography chains, GPS-receivers Groups who want to run multi-instrumental campaigns and desing or test new technology (e.g. long duration balloon flights, new radars) Groups who want to utilize the unique measurement conditions in the Antarctica Groups who want to test ”grazy” ideas Lead contacts: UK 6; US, Russia, Japan 4; Italy 3Slide7: SH NH 2003 2004 2005 GOMOS polar (60º-90º) NO2 [ppbv] More about this topic: Esa Turunen SGO, later today Annika Seppälä FMI, Tuesday before lunch Pekka Verronen FMI, Tuesday after lunchInterhemispheric asymmetries in auroras: Interhemispheric asymmetries in auroras Satellite images: Statistical models underestimate IMF By penetration Ground-based cameras: conjugacy point can move hundreds of km in longitude More about this topic: Nikolai Ostgaard Univ. Bergen, Tuesday afternoon Akira Kadokura, NIPR Japan, Wednesday morningTIMIS: Powerful weatherfronts and ionospheric magnetic variations : TIMIS: Powerful weatherfronts and ionospheric magnetic variations More about this topic: V. Papitashvili, Wed AfternoonGoals for this meeting: Goals for this meeting Identify the grand unified science goals Identify our resources: people, instrumentation, models and data analysis tools Set up routines for monitoring the outcome Boost up the usage of Virtual Observatories Discuss opportunities to get more money Get to know each otherIPY-IHY-ICESTAR networking: IPY-IHY-ICESTAR networking Persons contacted: IHY CIP proposers ICESTAR Topical Action Group leaders IPY Expression of Interest Lead contacts The process will be continued..Optical Networks: Auroral precipitation, conductances: Optical Networks: Auroral precipitation, conductances Magnetically conjugate regionsSlide13: SuperDARN Radars: Plasma convection Maps of the Super Dual Auroral Radar Network (SuperDARN) arrays over the Northern (left) and Southern (right) polar regions. The Antarctic map shows fields-of-view for existing (yellow) and planned (orange) radars. Riometers: Energetic precipitation: Riometers: Energetic precipitation Coordinates: Data base of the Lancaster UniversitySlide15: Mesosphere and Lower Thermosphere Radars Current Antarctic MLT Sites South Pole, Scott Base, Davis, Syowa & Rothera Current Arctic MLT Sites Esrange, Andennes, Tromso, Svalbard, Dixon Island, Resolute Bay, Yellowknife, Barrow http://sisko.colorado.edu/TIMEDIPY Data Policy: IPY Data Policy ”Data should be carefully collected, freely accessible, adequately preserved, and timely distributed” ”Data should be accompanied by a full set of metadata that completely describes the measurements” ”A legacy of versatile data systems” Solution: Virtual Observatories, one shopping site for observations from distributed sources Difference from Word Data Centers: VOs transfer data only upon user’s request. ICESTAR: GAIA and VGMO; Madrigal and SuperDARN, GPS and ionospheric tomography chainsHow to get data providers motivated?: How to get data providers motivated? VO’s could apply for Digital Object Identification code, c.f. AGU journals doi:10.1029/XXX Suggestion: DOI prefix: IPY, DOI suffix: VO Improvement to URLs: URLs change, DOIs persist Improvement to publications: Information behind DOIs can be updated easily Scientists using your data could easily refer to your DOI->User statistics for funding parties The drawback: Getting a DOI costs some real money… (member fee and annual fee)IPY-4 versus IGY: IPY-4 versus IGY Improvements since the IGY days: Long time series available Combined analysis of different data sets (ground-based and space-based) Data mining with machine vision methods Theoretical models help interpretation Advancements in the instrumentation From qualitative to quantitative descriptions Akasofu, 1969Recent Nature/Physics papers:: Recent Nature/Physics papers: ”magnetosphere” Cluster Pinatubo effects in the magnetosphere Saturn’s magnetosphere Halloween storm and radiation belts Planetary auroral storms from Sun to Saturn ”sprites” Images of high-speed cameras Similar discharges in Venus ”auroras” Auroral flares at Jupiter Artificial auroras at Caribbean ”stratosphere Observations during Huygens probe descent El nino effects in stratosphere (1941-429) “Exceptional astronomical seeing conditions above Dome C in Antarctica” “Arctic rockets give glimpse of the atmosphere's top layers” Acknowledgements: Acknowledgements Nice to see you all here! Scientific Council of Antarctic Research (SCAR), The Foundation of Vilho, Yrjö and Kalle Väisälä, and Finnish Meteorological Institute have supported this meeting. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Kauristie070205 fazil 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: 13 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 06, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript IPY core project #63: “Heliosphere impact on geospace”: IPY core project #63: “Heliosphere impact on geospace” Kirsti Kauristie, FMI +IHY and ICESTAR Teams +27 other reseach projects Contents: Contents Background Brief intro of the other 27 consortia Examples of science topics Goals of this meeting Review of the available instrumentation Data sharing issues Virtual observatories IPY4 versus IGY Encouragements and acknowledgements Slide3: International Polar Year (IPY, Mar 2007 – Mar 2009) March 2007 – March 2009, Project Office in BAS (UK) Launched by ICSU and WMO Eight science themes (e.g. Ocean, Ice, Atmosphere, Space) Expressions of Interests (>1000) and core projects (>400) EoIs submitted in January 2005, final endorsements in November 2005 IPY provides support for networking, core funding comes from national sources. Slide4: Heliosphere impact on geospace IPY core project (#63) conducted by ICESTAR, IHY (International Heliophysical Year) and 27 other consortia with scientists from 22 countries. Science about coupling phenomena affected by solar activity and cosmic background radiation Between the different atmospheric layers Between the magnetosphere and ionosphere Between the different hemispheres In addition Development of Virtual Observatories New instrumentation and technology http://www.space.fmi.fi/ipyid63 Slide5: The IPY planning chart IPY project 63: Who are the others?: IPY project 63: Who are the others? Instrument networks (monitoring): EISCAT, SuperDARN, Auroral Optical Network, Riometers, Ionospheric tomography chains, GPS-receivers Groups who want to run multi-instrumental campaigns and desing or test new technology (e.g. long duration balloon flights, new radars) Groups who want to utilize the unique measurement conditions in the Antarctica Groups who want to test ”grazy” ideas Lead contacts: UK 6; US, Russia, Japan 4; Italy 3Slide7: SH NH 2003 2004 2005 GOMOS polar (60º-90º) NO2 [ppbv] More about this topic: Esa Turunen SGO, later today Annika Seppälä FMI, Tuesday before lunch Pekka Verronen FMI, Tuesday after lunchInterhemispheric asymmetries in auroras: Interhemispheric asymmetries in auroras Satellite images: Statistical models underestimate IMF By penetration Ground-based cameras: conjugacy point can move hundreds of km in longitude More about this topic: Nikolai Ostgaard Univ. Bergen, Tuesday afternoon Akira Kadokura, NIPR Japan, Wednesday morningTIMIS: Powerful weatherfronts and ionospheric magnetic variations : TIMIS: Powerful weatherfronts and ionospheric magnetic variations More about this topic: V. Papitashvili, Wed AfternoonGoals for this meeting: Goals for this meeting Identify the grand unified science goals Identify our resources: people, instrumentation, models and data analysis tools Set up routines for monitoring the outcome Boost up the usage of Virtual Observatories Discuss opportunities to get more money Get to know each otherIPY-IHY-ICESTAR networking: IPY-IHY-ICESTAR networking Persons contacted: IHY CIP proposers ICESTAR Topical Action Group leaders IPY Expression of Interest Lead contacts The process will be continued..Optical Networks: Auroral precipitation, conductances: Optical Networks: Auroral precipitation, conductances Magnetically conjugate regionsSlide13: SuperDARN Radars: Plasma convection Maps of the Super Dual Auroral Radar Network (SuperDARN) arrays over the Northern (left) and Southern (right) polar regions. The Antarctic map shows fields-of-view for existing (yellow) and planned (orange) radars. Riometers: Energetic precipitation: Riometers: Energetic precipitation Coordinates: Data base of the Lancaster UniversitySlide15: Mesosphere and Lower Thermosphere Radars Current Antarctic MLT Sites South Pole, Scott Base, Davis, Syowa & Rothera Current Arctic MLT Sites Esrange, Andennes, Tromso, Svalbard, Dixon Island, Resolute Bay, Yellowknife, Barrow http://sisko.colorado.edu/TIMEDIPY Data Policy: IPY Data Policy ”Data should be carefully collected, freely accessible, adequately preserved, and timely distributed” ”Data should be accompanied by a full set of metadata that completely describes the measurements” ”A legacy of versatile data systems” Solution: Virtual Observatories, one shopping site for observations from distributed sources Difference from Word Data Centers: VOs transfer data only upon user’s request. ICESTAR: GAIA and VGMO; Madrigal and SuperDARN, GPS and ionospheric tomography chainsHow to get data providers motivated?: How to get data providers motivated? VO’s could apply for Digital Object Identification code, c.f. AGU journals doi:10.1029/XXX Suggestion: DOI prefix: IPY, DOI suffix: VO Improvement to URLs: URLs change, DOIs persist Improvement to publications: Information behind DOIs can be updated easily Scientists using your data could easily refer to your DOI->User statistics for funding parties The drawback: Getting a DOI costs some real money… (member fee and annual fee)IPY-4 versus IGY: IPY-4 versus IGY Improvements since the IGY days: Long time series available Combined analysis of different data sets (ground-based and space-based) Data mining with machine vision methods Theoretical models help interpretation Advancements in the instrumentation From qualitative to quantitative descriptions Akasofu, 1969Recent Nature/Physics papers:: Recent Nature/Physics papers: ”magnetosphere” Cluster Pinatubo effects in the magnetosphere Saturn’s magnetosphere Halloween storm and radiation belts Planetary auroral storms from Sun to Saturn ”sprites” Images of high-speed cameras Similar discharges in Venus ”auroras” Auroral flares at Jupiter Artificial auroras at Caribbean ”stratosphere Observations during Huygens probe descent El nino effects in stratosphere (1941-429) “Exceptional astronomical seeing conditions above Dome C in Antarctica” “Arctic rockets give glimpse of the atmosphere's top layers” Acknowledgements: Acknowledgements Nice to see you all here! Scientific Council of Antarctic Research (SCAR), The Foundation of Vilho, Yrjö and Kalle Väisälä, and Finnish Meteorological Institute have supported this meeting.