Nature, Volume 454Sir Norman Lockyer Macmillan Journals Limited, 2008 - Electronic journals |
From inside the book
Results 1-3 of 36
Page 69
... Voyager 2 should observe termination shock ion anisotropies directed towards the Sun ( the + T direction ) , in the opposite direction to those observed by Voyager 1 ( ref . 12 ) , which is consistent with the data . Currently , the ...
... Voyager 2 should observe termination shock ion anisotropies directed towards the Sun ( the + T direction ) , in the opposite direction to those observed by Voyager 1 ( ref . 12 ) , which is consistent with the data . Currently , the ...
Page 72
... Voyager 1 in the heliosheath since mid- 2005. However , the intensity of helium nuclei with an energy of 1-1.5 MeV per nucleon and 4-5 MeV protons at Voyager 2 just after it crossed the termination shock was three times larger than Voyager ...
... Voyager 1 in the heliosheath since mid- 2005. However , the intensity of helium nuclei with an energy of 1-1.5 MeV per nucleon and 4-5 MeV protons at Voyager 2 just after it crossed the termination shock was three times larger than Voyager ...
Page 73
... Voyager 1 observations was the effect of a large transient on shock acceleration22 . However , from the 12-22 MeV per nucleon He intens- ty profile at Voyager 2 in Fig . 3a , it does not appear that there was a arge enough transient ...
... Voyager 1 observations was the effect of a large transient on shock acceleration22 . However , from the 12-22 MeV per nucleon He intens- ty profile at Voyager 2 in Fig . 3a , it does not appear that there was a arge enough transient ...
Contents
More CO₂ means more 81 Domination of heliosheath pressure by shockaccelerated | 38 |
page 96 and News 84 Spatial cooperativity in soft glassy flows | 88 |
SMAD proteins control DROSHAmediated microRNA maturation A McCulloch J Chen S M Evans | 109 |
Copyright | |
7 other sections not shown
Other editions - View all
Common terms and phrases
acid activity AMPA receptors analysis antibody applications atoms Biol Biology BMP4 cancer candidates carbon cardiomyocyte Centre chromatin clinical cln1 CLN2 cocaine cohesin complex differentiation disease dynamics effect electron embryos energy experience expression fluorescence function genes genetic genome graphene heliosheath human IGFBP-4 imaging increase indicate induced Institute interaction ions IRF4 isotope laboratory Lett magnetic field measured membrane microRNA molecular molecules mutant myeloma Nature Naturejobs neurons Neurosci observed ocean acidification opsin oscillations osteoclast paper at www.nature.com/nature photon phyllosilicate Phys plasma position protein quantum qubit receptor region regulation reprogramming resonator rhodopsin says Science scientific scientists securin separase signalling siRNA solar wind somites specific stem cells stochasticity structure studies Supplementary Fig Supplementary Information target temperature termination shock TGF-ẞ tion transcription factors University Voyager wild-type