Princeton University
steinh@princeton.edu

Dark Matter

The research on dark matter below focuses on alternatives to WIMPs, especially the possibility that dark matter is strongly self-interacting with itself but very weakly interacting with ordinary matter.

J.P. Ostriker, P.J. Steinhardt

New Light on Dark Matter, Science 300 (2003) 1909

N.A. Bahcall, J.P. Ostriker, S. Perlmutter, P.J. Steinhardt

The Cosmic Triangle: Revealing the State of the Universe, Science (284) 1481

SELF-INTERACTING DARK MATTER

D.N. Spergel, P.J. Steinhardt

Observational evidence for self-interacting cold dark matter,

Phys. Rev. Lett. 84 (2000) 3760 Proposal that dark matter may be strongly self-interacting (and perhaps only gravitational interacting with ordinary matter)

A.L. Erickcek, P.J. Steinhardt, D. McCammon, P.C. McGuire

Constraints on the Interactions between Dark Matter and Baryons from the X-ray Quantum Calorimetry Experiment,Phys. Rev. D76 (2007) 042007

Limits on interactions between dark matter and baryons

BARYOGENESIS

D. Baumann, P.J. Steinhardt, N. Turok

Primordial Black Hole Baryogenesis (2007)

Could baryon asymmetry be due to the last stages of decay of primordial black holes produced in a bounce or bang?

H. Davoudiasl, R. Kitano, G.D. Kribs, H. Murayama, P.J. Steinhardt

Gravitational Baryogenesis, Phys. Rev. Lett. 93 (2004) 201301

Could baryon asymmetry be directly due to a gravitational interactions?

For more papers in cosmology, go here]

 

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