Big Bounce and Inflation from Spin and Torsion Nikodem Popławski

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Transcription:

Big Bounce and Inflation from Spin and Torsion Nikodem Popławski Institute for Theory and Computation Luncheon Harvard-Smithsonian Center for Astrophysics September 29, 2016

Cosmic Microwave Background Big Bang Licensed under Public domain via Wikimedia Commons

Problems of general relativity General relativity describes gravity as curvature of spacetime. Singularities: points with infinite density of matter. Incompatible with quantum mechanics. We need quantum gravity. It may resolve the singularity problem. Field equations contain the conservation of orbital angular momentum, contradicting Dirac equation which gives the conservation of total angular momentum (orbital + spin) and allows spin-orbit exchange. Simplest extension of GR to include QM spin: Einstein-Cartan theory. It also resolves the singularity problem.

Problems of big-bang cosmology & inflation Big-bang singularity. What caused the big bang? What existed before? Inflation (exponential expansion of the early Universe) solves the flatness and horizon problems, and predicts the observed spectrum of CMB perturbations. What caused inflation? (scalar fields are usually used) Why did inflation end? (no eternal inflation) Einstein-Cartan theory replaces the singular Big Bang by a nonsingular Big Bounce. The dynamics immediately after the bounce explains the flatness/horizon problems. NP, PLB 694, 181 (2010).

Einstein-Cartan-Sciama-Kibble gravity Spacetime has curvature and torsion. Cartan equations: Torsion is proportional to the spin density of fermions. ECSK in vacuum reduces to GR and passes all observational tests. It differs from GR at densities around 10 45 kg/m 3 and higher. Einstein equations: Curvature is proportional to the energy and momentum density.

Universe with spin fluid Dirac particles can be averaged macroscopically as a spin fluid. s ¹º½ = s ¹º u ½ s ¹º u º = 0 s 2 = s ¹º s ¹º /2 Einstein-Cartan equations for a (closed) FLRW Universe become Friedman equations. Spin and torsion modify the energy density with a negative term proportional to the square of the fermion number density, which acts like repulsive gravity and prevents the scale factor from reaching zero. The Big Bang singularity is avoided.

Universe with spin fluid For relativistic matter, Friedman equations can be written in terms of temperature. 2 nd Friedman equation is rewritten as 1 st law of thermodynamics for constant entropy. Parker-Starobinskii-Zel dovich particle production rate K, proportional to the square of curvature, produces entropy in the Universe. No reheating needed. (to appear in ApJ, 2016)

Generating inflation with only 1 parameter Near a bounce: To avoid eternal inflation: During an expansion phase, near critical value of particle production coefficient β: Exponential expansion lasts about then T decreases. Torsion becomes weak and radiation dominated era begins. No scalar fields needed.

If quantum effects in the gravitational field near a bounce produce enough matter, then the closed Universe can reach a size at which dark energy becomes dominant and expands to infinity. Otherwise, the Universe contracts to another bounce (with larger scale factor) at which it produces more matter, and expands again.

The temperature at a bounce depends on the number of elementary particles and the Planck temperature. Numerical integration of the equations shows that the numbers of bounces and e-folds depend on the particle production coefficient but are not too sensitive to the initial scale factor. The Universe might have originated from the interior of a black hole. Accordingly, every black hole may create a new universe on the other side of its event horizon and become a wormhole to that universe (Novikov, Pathria, Smolin, NP, and others).

Dynamics of the early Universe β/β cr = 0.9998

It is possible to find a scalar field potential which generates a given time dependence of the scale factor, and calculate the parameters which are being measured in CMB. Consistent with Planck 2015. S. Desai & NP, PLB 755, 183 (2016)

Acknowledgments: University of New Haven & University Research Scholar program at UNH Dr. Shantanu Desai Torsion research at CfA: George Field, Rosanne di Stefano References: Kibble, JMP 2, 212 (1961) Sciama, RMP 36, 463 (1964) Hehl, von der Heyde & Kerlick, PRD 10, 1066 (1974) Ellis & Madsen, CQG 8, 667 (1991) NP, PLB 694, 181 (2010); PRD 85, 107502 (2012) Desai & NP, PLB 755, 183 (2016)

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