Abstract
Recently Dolgov and Pozdnyakov proposed a new baryogenesis mechanism in which baryon asymmetry is produced without violating baryon number at the Lagrangian level. In this scenario, baryon asymmetry is generated by absorption of a new particle X carrying baryon number onto Primordial Black Holes (PBHs). Assuming CP-violation, the particle X is absorbed at a different rate than the antiparticle $\bar{X}$, producing an asymmetry in the baryonic number. We independently test this scenario, finding that it suffers from two fundamental issues.\\ At the phenomenological level, strong absorption by PBHs initially increases the baryon asymmetry. However, at later times such asymmetry is completely absorbed by PBHs. In order to overcome this issue, we account for PBH evaporation, which provides a natural way of halting the absorption while keeping a finite baryon asymmetry. We provide a systematic study of the parameter space, identifying the regions leading to the production of the baryon asymmetry without violating the known constraints on PBHs concentration. At the theoretical level, a model realizing the CP-violation postulated in this scenario is difficult to realize. We show, by implementing a minimal model, that the framework proposed in the original work in order to produce CP-violation, even if qualitatively correct, is quantitatively in disagreement with the observed baryon asymmetry, namely this mechanism produces only a fraction of the total baryon asymmetry.
Highlights
Our universe exhibits an asymmetry among baryons and antibaryons, whose origin is one of the fundamental problems of physics
After freeze-out, N remains approximately constant and undergoes a slow absorption by primordial black holes (PBHs) leading to a continuous production of asymmetry, represented by the steadily increasing blue curve; this is a second component of asymmetry which starts being produced after freeze-out
We show as a dashed line the solution determined without accounting for PBH evaporation: the dashed curve vanishes for x ∼ 2 × 106
Summary
Our universe exhibits an asymmetry among baryons and antibaryons, whose origin is one of the fundamental problems of physics. The amount of baryon asymmetry can be quantified by the measured ratio [1,2,3,4] ηeBxp ≡ ðnB −nB Þ=s1⁄4ð8.718Æ0.004Þ×10−11, where nBðnB Þ is the baryon (antibaryon) number density and s is the entropy density. In 1967, Sakharov proposed three conditions [5] necessary for a viable baryogenesis mechanism: (i) violation of the baryon number, (ii) violation of CP and C symmetries, and (iii) out of equilibrium processes.
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