Decadal climate predictions with the CMCC-CM coupled OAGCM initialized with ocean analyses A. Bellucci 1, S. Gualdi 1,2, E. Scoccimarro 2, A. Navarra 1,2,
Current status of numerical relativity Gravitational waves from coalescing compact binaries Masaru Shibata (Yukawa Institute, Kyoto University)
Photo: R. Muñoz-Carpena, Ph.D. Agricultural and Biological Engineering University of Florida.
On numerical simulation of liquefied and gaseous hydrogen releases at large scales V. Molkov, D. Makarov, E. Prost 8-10 September 2005, Pisa, Italy First.
EVALUATION OF UPPER OCEAN MIXING PARAMETERIZATIONS S. Daniel Jacob 1, Lynn K. Shay 2 and George R. Halliwell 2 1 GEST, UMBC/ NASA GSFC, Greenbelt, MD 20771.
Current status of numerical relativity Gravitational waves from coalescing compact binaries
Problem
Ionospheric Electrodynamics & Low-Earth Orbiting Satellites (LEOS) J-M Noël, A. Russell, D. Burrell & S. Thorsteinson Royal Military College of Canada.
R. Muñoz-Carpena, Ph.D. Agricultural and Biological Engineering University of Florida
Maxim Barkov Space Research Institute, Russia, University of Leeds, UK Serguei Komissarov
On numerical simulation of liquefied and gaseous hydrogen releases at large scales
Decadal climate predictions with the CMCC-CM coupled OAGCM initialized with ocean analyses