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Space Weather Observations from the GOLD Mission Richard Eastes and the GOLD Team ( W. E. McClintock, A. G. Burns, S. C. Solomon, D. N. Anderson, L. Andersson,

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Presentation on theme: "Space Weather Observations from the GOLD Mission Richard Eastes and the GOLD Team ( W. E. McClintock, A. G. Burns, S. C. Solomon, D. N. Anderson, L. Andersson,"— Presentation transcript:

1 Space Weather Observations from the GOLD Mission Richard Eastes and the GOLD Team ( W. E. McClintock, A. G. Burns, S. C. Solomon, D. N. Anderson, L. Andersson, M. Codrescu, R. E. Daniell, S. L. England, J. E. Harvey, A. Krywonos, M. Lankton, J. D. Lumpe, A. D. Richmond, D. W. Rusch, O. Siegmund, D. J. Strickland, T. N. Woods, A. Aksnes, S. A. Budzien, K. F. Dymond, F. G. Eparvier, H. Foroosh, R. S. Lieberman, C. R. Martinis, and J. Oberheide)

2 GOLD Mission, April 2014 SWWPage 2R. Eastes – UCF/FSI GOLD Mission of Opportunity will study how space around Earth responds to the Sun and the lower atmosphere. GOLD will make unprecedented images of Earths response. GOLD FUV imager launches in 2017. Imaging the Boundary Between Earth and Space

3 GOLD Mission, April 2014 SWWPage 3R. Eastes – UCF/FSI The View from Geostationary Orbit GOES-13 2012-10-28 1302 UTC GOLD images the disk and limb from geostationary orbit Full images at 30-minute cadence GOLD measures the composition and temperature of the thermosphere

4 GOLD Mission, April 2014 SWWPage 4R. Eastes – UCF/FSI The View from Geostationary Orbit TEMPERATURE GOLD images the disk and limb from geostationary orbit Full images at 30-minute cadence GOLD measures the composition and temperature of the thermosphere

5 GOLD Mission, April 2014 SWWPage 5R. Eastes – UCF/FSI How do geomagnetic storms impact Earths space environment? 60 35 10 - 40 - 15 150 100 50 -50 0 Modeled changes in upper atmosphere during storm Δ O/N 2 Ratio (%) Δ Temperature (K) GOLDs Most Important Result GOLD will discover how the upper atmosphere acts as a weather system

6 GOLD Mission, April 2014 SWWPage 6R. Eastes – UCF/FSI Weather in the Thermosphere-Ionosphere Forcing from Above Forcing from Below Solar Ultraviolet and X-raysSolar Wind and Magnetosphere Tides and Planetary Waves Turbulence and Convection Thermosphere- Ionosphere CHALLENGE: The thermosphere- ionosphere system changes rapidly in response to forcing APPROACH: Ultraviolet imaging from geostationary orbit RESULT: Resolve interactions between drivers of the coupled system

7 GOLD Mission, April 2014 SWWPage 7R. Eastes – UCF/FSI Instrument Summary Mass 30 kg Power 24 W Size42 × 42 × 70 cm Imaging Spectrograph: -Two independent, identical channels -Microchannel plate, 2-D detectors -Individual photon events recorded -Spectral resolution: 0.3, 1.0 and 7 nm Heritage: -Cassini UVIS -MESSENGER MASCS -MAVEN IUVS (launched Nov., 2013) Schedule: Observations: -Disk maps of T neutral and O/N 2 density ratio (dayside) -T exo from dayside limb scans -Disk maps of N e maximum (nightside) -O 2 density by occultations GOLD UV Imaging Spectrograph

8 GOLD Mission, April 2014 SWWPage 8R. Eastes – UCF/FSI Proven Measurement Techniques Used Daytime Far-Ultraviolet Spectrum Atomic Oxygen 135.6 nm doublet N 2 LBH bands Horizontal scan of disk & limb; image along vertical slit Temperature (T neutral ) on disk measured using shape of N 2 LBH bands O/N 2 density ratio on disk measured using ratio of 135.6 doublet to LBH bands Exospheric temperature (T exo ) from N 2 limb emission altitude profile N e maximum at night from 135.6 recombination emission O 2 profile on limb from stellar occultations

9 GOLD Mission, April 2014 SWWPage 9R. Eastes – UCF/FSI Solar Safe Concept for Observing Operations 00:00 24:00 03:00 17:00 20:00 21:00 Dual channel, Day Side Disk Imaging, Day Side Limb Scan, and Stellar Occultations Nightside Disk Imaging, Day Side Limb Scan, and Stellar Occultations Spacecraft Local Time 12:00 C1 C2 C1 C2 Legend Dayside Disk Image Dayside Limb Scan Stellar Occultation Nightside Disk Image Nominal GOLD observing modes: - Full disk maps and limb scans with 30 minute cadence HR (0.3 nm): Dayside (disk temperature, disk O/N 2, and T exo ) Disk data products include neutral T and O/N 2 ratio at 250 km x 250 km spatial resolution for storms LR (1 nm): Nightside (disk O emissions to map N e max and bubbles) - O 2 occultation measurements OCC: Dayside and Nightside Interrupt nominal disk scans (5% duty cycle )

10 GOLD Mission, April 2014 SWWPage 10R. Eastes – UCF/FSI Space-Weather from GOLD GOLD addresses major goals of 2012 Heliophysics Decadal Survey: Determine the dynamics and coupling of Earths magnetosphere, ionosphere, and atmosphere and their response to solar and terrestrial inputs. Develop a strategic capability to make global-scale atmosphere-ionosphere- magnetosphere imaging measurements from host spacecraft, notably those in...geostationary orbits. Unprecedented disk imaging of temperature and composition Able to separate changes in time from changes in location Coincident with ground-based measurements at 30 minute cadence Provides context for ground-based and LEO measurements Near real-time data availability GOLD provides a new capability for Space Weather

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