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Physics and Cosmology with the Cosmic Microwave Background PDF
Preview Physics and Cosmology with the Cosmic Microwave Background
Physics and Cosmology with the Cosmic Microwave Background John Carlstrom University of Chicago Photo credit: Jason Gallicchio Universe as a Physics Laboratory ? Inflation Cosmic neutrino background Cosmic microwave background CMB measurements probe cosmology, astrophysics and fundamental physics NASA/WMAP Team Inflation? Universe expands by >e60 solving smoothness problem, flatness and more.. What drove inflation? What is the energy scale of inflation? - spectral index of primordial fluctuations, n s - non-Gaussianity? - constrain tensor to scalar fluctuations - detect inflationary gravitational waves? ➡ through precision temperature and ultra-sensitive polarization measurements of the primary CMB anisotropy Physics at recombination Universe cools enough to form neutral H. Photons start free-streaming - Measure primordial fluctuations - Inventory stuff in the universe - Number of relativistic species, helium abundance - Recombination history; energy injection ➡ through precision measurement of CMB power spectrum to fine angular scales, i.e., covering the “damping” tail ➡ eventually through spectral distortions and recombination lines Reionization “Cosmic Dawn” When and how did it proceed? Patchy reionization, Zahn et al, 2005 ➡ through measurement of CMB polarization imprint of reionization on large angular scales ➡ through measurements of the diffuse kinematic SZ effect on small angular scales Credit: Kravtsov Structure Formation Cosmic Acceleration Gravitational collapse creates increasingly Dark energy begins accelerating large structures the expansion of the Universe. - Is dark energy dynamic or a - What is dark matter? cosmological constant? - Masses of the neutrinos - Is GR correct on large scales? ➡ structure formation through lensing of the CMB and kinematic SZ effect ➡ measure evolution of Galaxy Clusters through thermal SZ effect E.g., Neutrino constraints Dark Radiation N - effective number of relativistic species eff uniquely impacts intrinsic CMB power spectrum Radiation Matter Domination Domination → Σm > 0 ν ) k ( P Sum of the neutrino masses impacts growth of large scale structure, i.e., the matter power spectrum measured by CMB lensing. k → 2015 marks the 50 year anniversary of the Discovery of the Cosmic Microwave Background “smoking%gun”% evidence%for%a% Hot%Big%Bang 1978 Nobel Prize Enormous impact on Cosmology Arno%Penzias%&%Robert%Wilson%in%front%of%the% 206%Bell%Labs%antenna%used%to%discover%the% microwave%background%%in%1965 Penzias%&%Wilson!pp!419![ApJ!142,!1965] Dicke,%Peebles,%Roll%&%Wilkinson!pp.!414 Following!the!work!of!Alpher,!Gamov,! Herman!and!others!in!1940D50s 23 years ago Discovery of CMB Anisotropy COBE Satellite 2006 Nobel Prize John Mather A direct view of quantum fuzz George Smoot Inflation connects physics on the 2006 Nobel Prize to Team leaders smallest and largest size scales John Mather & George Smoot Isotropic to a part in 105 motivated inflationary quantum mechanical origin of our universe