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Raketenantrieb auf Basis der Sonneneruption
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Mit Plasma raus ins Weltall - VDI nachrichten
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Lindsay Bartolone, IMAP Communications Lead
Jan. 14, 2021 7:30 a.m.
NASA and the Ministry of Science and Higher Education of the Republic of Poland agreed on Dec. 30 to cooperate on a NASA heliophysics mission, the Interstellar Mapping and Acceleration Probe (IMAP), which is led by Princeton s David McComas, a professor of astrophysical sciences.
The agreement will allow the Space Research Center of the Polish Academy of Sciences to design and build one of IMAP’s 10 instruments the Global Solar Wind Structure (GLOWS) instrument as well as provide ground support and personnel necessary to support the instrument and the IMAP science team.
NASA and Poland will cooperate to build an instrument for the Interstellar Mapping and Acceleration Probe (IMAP), a mission to the outer edge of the solar system that is led by Princeton s David McComas.
DOE/Princeton Plasma Physics Laboratory
PPPL physicists Shurik Yatom and Sophia Gershman conducting low temperature plasma research prior to the pandemic. (Photo by Elle Starkman/Office of Communications)
From plasma technologies to fight the COVID-19 pandemic to heat-resistant Earth reentry vehicles, U.S. researchers are exploring innovative projects at the new Princeton Collaborative Low Temperature Plasma Research Facility (PCRF). The joint venture of the U.S. Department of Energy s (DOE) Princeton Plasma Physics Laboratory (PPPL) and Princeton University provides access to world-class diagnostics, computational tools, and expertise in plasma physics for characterizing low temperature plasmas (LTP) a rapidly expanding source of innovation in fields ranging from electronics to health care to space exploration.
New Findings Could Improve Understanding of Potentially Damaging Solar Storms Details
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When fast-moving particles from the sun strike the Earth’s magnetic field, they set off reactions that could disrupt communications satellites and power grids.
When fast-moving particles from the sun strike the Earth’s magnetic field, they set off reactions that could disrupt communications satellites and power grids. Now, scientists at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) have learned new details of this process that could lead to better forecasting of this so-called space weather.
The findings indicate how these regular blasts of fast-moving particles from the sun interact with the magnetic fields surrounding Earth in a region known as the magnetosphere. During these solar outpourings, the sun’s and Earth’s magnetic field lines collide. The field lines break and then reattach, releasing huge amounts o
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