* Astronomy

Astronomy/Physics Lecture - General Relativity
The origin of Einstein's general theory of relativity from the equivalence principle. Spacetime and Black Holes.

It has long been accepted, at least in theory, that other universes might exist and might even collide with ours. Yet the idea that we would ever be able to see the aftermath of such collisions, and so find evidence of other universes, has seemed beyond the scope of science. That is set to change.
Anthony Aguirre of the University of California, Santa Cruz, thinks the proof of cosmic collisions could be all around us, as imprints in the cosmic microwave background (CMB) left over from the big bang.
According to the standard model of cosmology, our universe underwent a phase of exponential expansion, known as inflation, just after the big bang. In theory, inflation could still be happening, with bubbles of space-time suddenly blowing up to create new pocket universes. The cosmological parameters, such as the rate of expansion, and the laws of physics could be different in each new universe, potentially giving rise to new types of matter.

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Title: Towards observable signatures of other bubble universes
Authors: Anthony Aguirre, Matthew C Johnson, Assaf Shomer

We evaluate the possibility of observable effects arising from collisions between vacuum bubbles in a universe undergoing false-vacuum eternal inflation. Contrary to conventional wisdom, "typical" observers inside a bubble should have access to a large number of collision events. We calculate the expected number and angular size distribution of such collisions on an observer's "sky", finding that for typical observers the distribution is anisotropic and includes many collisions, each of which will affect the majority of the observer's sky. After a qualitative discussion of the physics involved in collisions between arbitrary bubbles, we evaluate the implications of our results, and outline possible observable effects. In an optimistic sense, then, the present paper constitutes a first step in an assessment of the effects of other bubble universes on the cosmic microwave background and other observables.

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Scientists question our understanding of the universe
Cosmologists from around the world will meet at Imperial College London next week to challenge the theories behind the 'standard model' used to understand the universe. Speakers at the four-day conference, jointly organised by Imperial and the University of Alabama in Huntsville, and sponsored by the U.S. National Science Foundation, will cover a wide range of unanswered questions on how the universe was formed and what has been happening to it after formation.

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Written across the sky is a secret, a hidden blueprint detailing the original design of the universe itself. The spread of matter throughout space follows a pattern laid out at the beginning of time and scaled up to incredible proportions by nearly 14 billion years of cosmic expansion. Today that pattern is gradually being decoded by analysing maps of the distribution of the stars, and what has been uncovered could shake modern cosmology to its foundations.
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