Oral Programme G2.3
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G2.3 Observing and understanding Earth rotation variability and its geophysical excitation |
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| Convener: Florian Seitz | Co-Convener: David Salstein | |
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Oral Programme
/ Wed, 06 Apr, 08:30–12:00
/ Room 17
Poster Programme
/ Attendance Wed, 06 Apr, 17:30–19:00
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Wednesday, 6 April 2011 Room 17 Chairperson: Florian Seitz |
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| 08:30–08:45 |
EGU2011-3926
Changes in Present-Day True Polar Wander Richard Gross |
| 08:45–09:00 |
EGU2011-5024
Refined “Effective Angular Momentum Functions (solicited) Steven Dickman |
| 09:00–09:15 |
EGU2011-1077
Analytical expression of the topographic torque on the CMB Veronique Dehant and Marta Folgueira |
| 09:15–09:30 |
EGU2011-1854
VLBI2010 and the next generation of Earth orientation observations (solicited) Axel Nothnagel and Judith Pietzner |
| 09:30–09:45 |
EGU2011-7166
Near real-time monitoring of the Earth's rotation angle with VLBI Rüdiger Haas and the Fennoscandian-Japanese Ultra-Rapid VLBI |
| 09:45–10:00 |
EGU2011-1141
Estimation of EOP series by a combination of different space geodetic techniques Mathis Bloßfeld, Manuela Seitz, Robert Heinkelmann, and Detlef Angermann |
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COFFEE BREAK
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| 10:30–10:45 |
EGU2011-8428
Geophysical excitations of the Earth rotation (solicited) Jianli Chen and Clark Wilson |
| 10:45–11:00 |
EGU2011-5270
Impact of atmosphere/ocean models' climate scenarios on angular momentum and related EOP parameters David Salstein, Katherine Quinn, and Rodrigo Abarca del Rio |
| 11:00–11:15 |
EGU2011-6522
Sub-daily excitation of Earth rotation by atmospheric tides Michael Schindelegger, Johannes Böhm, David Salstein, and Harald Schuh |
| 11:15–11:30 |
EGU2011-12575
Atmospheric and oceanic excitation of nutation: analysis of the nonharmonic component Aleksander Brzezinski |
| 11:30–11:45 |
EGU2011-520
A comparison of different approaches for the determination of the Earth's pole tide Love number from polar motion observations Stephanie Kirschner, Delf Neubersch, and Florian Seitz |
| 11:45–12:00 |
EGU2011-3515
Ensemble Kalman filtering of Earth rotation observations with a global ocean model Jan Saynisch and Maik Thomas |