... understanding of the nature and distribution and origin of known types of stars and galaxies, map the 3-D structure of our galaxy, and help determine the relation between the 3-D structure of the universe and the mysterious 'darkenergy' and dark matter ...
... understanding of the nature and distribution and origin of known types of stars and galaxies, map the 3-D structure of our galaxy, and help determine the relation between the 3-D structure of the universe and the mysterious 'darkenergy' and dark matter ...
... A much larger amount of darkenergy also seems present in the Universe, but is not expected to affect the motions of the stars within the Milky Way. ...
... and origin of known types of stars and galaxies, map the three-dimensional structure of our galaxy and the neighbouring Magellanic Clouds, and help determine the relation between the structure of the Universe and the mysterious darkenergy and dark matter ...
... A much larger amount of darkenergy also seems present in the Universe, but is not expected to affect the motions of the stars within the Milky Way. ...
... A much larger amount of darkenergy also seems present in the Universe, but is not expected to affect the motions of the stars within the Milky Way. ...
... A much larger amount of darkenergy also seems present in the Universe, but is not expected to affect the motions of the stars within the Milky Way. ...
... A much larger amount of darkenergy also seems present in the Universe, but is not expected to affect the motions of the stars within the Milky Way. ...
... Before Hubble was launched in 1990, no exoplanet had ever been observed, darkenergy was unknown, the age of the universe was a mystery, and the most distant objects observed were just halfway back in time to the Big Bang. ...
... These large collaborative surveys within Europe target many of the fundamental questions in astrophysics today, ranging from the nature of darkenergy to the universality of the stellar initial mass function. ...