{ "scale": "cosmological", "events": [ { "start_date": { "year": "-13798000000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "media": { "caption": "Illustration of evolution of the universe from the Big Bang", "credit": "Kaldari (Wikipedia)", "url": "http://upload.wikimedia.org/wikipedia/commons/6/6f/CMB_Timeline300_no_WMAP.jpg" }, "text": { "headline": "The Big Bang", "text": "In the first ten seconds after the Big Bang, cosmologists have speculated several distinct phases in which the various fundamental particles of the universe formed." } }, { "start_date": { "year": "-13797930000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "text": { "headline": "Matter domination", "text": "

At this time, the densities of non-relativistic matter (atomic nuclei) and relativistic radiation (photons) are equal. The Jeans length, which determines the smallest structures that can form (due to competition between gravitational attraction and pressure effects), begins to fall and perturbations, instead of being wiped out by free-streaming radiation, can begin to grow in amplitude.

According to ΛCDM, at this stage, cold dark matter dominates, paving the way for gravitational collapse to amplify the tiny inhomogeneities left by cosmic inflation, making dense regions denser and rarefied regions more rarefied. However, because present theories as to the nature of dark matter are inconclusive, there is as yet no consensus as to its origin at earlier times, as currently exist for baryonic matter.

" }, "unique_id": "" }, { "start_date": { "year": "-13797623000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "media": { "url": "http://en.wikipedia.org/wiki/Recombination_(cosmology)", "credit": "Wikipedia" }, "text": { "headline": "Recombination", "text": "Hydrogen and helium atoms begin to form as the density of the universe falls." }, "unique_id": "" }, { "start_date": { "year": "-13648000000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "end_date": { "year": "-12798000000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "media": { "url": "http://en.wikipedia.org/wiki/Reionization" }, "text": { "headline": "Reionization", "text": "" }, "unique_id": "" }, { "start_date": { "year": "-4798000000", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "" }, "text": { "headline": "Formation of the Solar System", "text": "The Solar System began forming about 4.6 billion years ago, or about 9 billion years after the Big Bang. A molecular cloud made mostly of hydrogen and traces of other elements began to collapse, forming a large sphere in the center which would become the Sun, as well as a surrounding disk. The surrounding accretion disk would coalesce into a multitude of smaller objects that would become planets, asteroids, and comets. The Sun is a late-generation star, and the Solar System incorporates matter created by previous generations of stars." }, "unique_id": "" }, { "start_date": { "year": "0", "month": "", "day": "", "hour": "", "minute": "", "second": "", "millisecond": "", "format": "", "display_text": "Now" }, "text": { "headline": "“Today”", "text": "" }, "unique_id": "" } ] }