PPT-1 Solar wind interaction with LISM

theory and IBEX NASA and Voyager NASA data analyses Izmodenov VV Space Research Institute IKI RAS amp Lomonosov Moscow State University 2 Subject the region where the solar wind interacts with the local interstellar medium. 09:50, Friday November 21 . auditorium . Reine. Elisabeth. Session: 14 Space Climate . Time allowed 20 min. Mike . Lockwood. , . L. Barnard. , C.J. . Scott, & M.J. Owens. (Department . of Meteorology, University of Reading, . Exploring the Sun-. heliosphere. connection. Science questions. Mission overview. Status update. The Sun creates the heliosphere. Why study the Sun-space connection?. Addresses ESA’s Cosmic Vision question “How does the solar system work?”. ECOFEST 2009. May 1 to May 8. Rosalie Forest Eco Lodge. SOLAR AND WIND ELECTRICITY WORKSHOP. THE FIRST RULE OF GOING RENEWABLE.  . CONSIDER YOUR CONSUMPTION.  . One of the most important things to remember when considering going solar is your consumption. The more you use, the more you need to spend on your system. Change your light bulbs to compact fluorescent bulb, switch off lights and appliances when out, make sure the fridge shuts properly, and try not to use big power things like irons and hairdryers. If you can manage without these you can save thousands of dollars.. N. U. Crooker, S. W. . Antiochos. ,. . X. Zhao, Yi-M. Wang, and . M. . . Neugebauer. Source of solar wind. Coronal holes (Open field regions) . . Chashei. I.V., . Shishov. V.I., . Tyul’bashev. S.A., . Oreshko. V.V., . Subaev. . S.A.. . Radio telescope BSA LPI (Big Scanning Array of . Lebedev. Physical Institute) . Frequency 111 MHz. Bandwidth 2.5 MHz, sampling rate 0.1 s . P. ropagation . T. ool. Chihiro Tao. 1,2. ,. . Nicolas Andre. 1. , Vincent Génot. 1. , Alexis P. Rouillard. 1. , Elena Budnik. 1. , Arnaud Biegun. 1. , Andrei Fedorov. 1. 1. IRAP, Univ. de Toulouse/UPS-OMP/CNRS. Lauren . Bezek. , Nichole . Duden. , Alex Harrington, and Cody . Puzza. Mark Z. Jacobson, professor at Stanford University, and Mark A. Delucchi, research scientist at the University of California, developed a plan in 2009 to transfer 100% of world’s energy to renewable sources, such as wind, water, and solar, by the year 2030 and replace pre-existing nonrenewable sources by 2050 to eliminate climate change, pollution, and energy insecurity. The critical issues arise socially and politically, not technically and economically, because industries would need to change.. Nicholeen. . Viall. NASA/GSFC . In collaboration with : Larry . Kepko. , Spiro . Antiochos. , Sue . Lepri. , . Angelos. . Vourlidas. , and Jon Linker. Connecting the Sun to the . Heliosphere. Which solar structures become structures in the . space . weather . monitoring missions situated at the L1 &. . L5 . Lagrangian. . points. Yulia Bogdanova. 1. , Jackie Davies. 1. , . Richard Harrison. 1. , Mario Bisi. 1. , Mike Hapgood. 1. , Mark Gibbs. . John . Wellinghoff, . Chair, Federal Energy Regulatory Commission. Renewables Are Ready. Renewables. . Are Ready. Greensburg, Kansas . - rebuilt after 2007 tornado; . 100% . renewable. Samsoe. Island, Denmark. Theoretical solar . influence . on climate. Some evidence of a tropospheric response to the 11-year solar cycle. Solar signal in . tropospheric temperature, humidity, sea level pressure, . geopotential. Substorms. 2. 5-29 September 2017. Portsmouth, New Hampshire, USA. . Double Magnetic Reconnection Driven by Kelvin-Helmholtz . Vortices. W. . Horton. 1. , M. Faganello. 2. , F. . Pegoraro. 2. F.Califano. James A. . Klimchuk. . NASA Goddard Space Flight Center . Hinode. / SOT. Disclaimer:. This discussion concerns spicules as observationally distinct features.. Spicules may by just one manifestation of a larger sequence of events that generates waves and creates electric currents that could potentially give rise to substantial coronal heating.. SOURCES. J.H. . . Allton. 1. . K.K. . Allums. 2. , C. P. Gonzalez. 3. 1. NASA . Johnson Space Center, Houston, TX 77058. 2. HX5,LLC-Jacobs . JETS Contract, NASA Johnson Space Center, Houston, TX . 77058, .