05/16/2014
2013-2014 Series of Lectures on Astrophysics and Cosmology: science of the cosmos, science in the cosmos
Lecture: "From Mars to the Multiverse"
Synopsis:
Astronomers have made astonishing progress in probing our cosmic environment. We can trace cosmic history from some mysterious "beginning" nearly 14 billion years ago, and understand in outline the emergence of atoms, galaxies, stars and planets. Unmanned spacecraft have visited the other planets of our solar system (and some of their moons), beaming back pictures of varied and distinctive worlds. An exciting development in the last decade has been the realization that many other stars are orbited by retinues of planets -- some resembling our Earth.
Looking further afield, we are understanding galaxies and their nuclei in fuller detail, and can check models of their evolution by detecting objects all the way back to an epoch only a billion years after the "Big Bang". Indeed we can trace pre-galactic history with some confidence back to a nanosecond after the "Big Bang". But the key parameters of our expanding Universe -- the expansion rate, the geometry and the content -- were established much earlier still. The physics involved is still conjectural but is now being pinned down by experimental data, especially from ESA's Planck Spacecraft. These advances pose new questions: What does the long-range future hold? Should we be surprised that the physical laws permitted the emergence of complexity? Were there many "Big Bangs" and not just one? This illustrated lecture will attempt to address such issues.