How to see an antistar

Dolgov, A. D.; Novikov, V.A.; Vysotsky, M. I.

doi:10.1134/s0021364013220037

Cited by 31 publications

(46 citation statements)

References 15 publications

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“…from a decrease of the photon energy density due to non-zero plasma frequency) [26] and the remaining 0.035 comes from non-instant neutrino decoupling from e + e − -pairs, with higher temperature, whose annihilation slightly heats up the neutrino gas and distorts its energy spectrum. This phenomenon was discovered in the work [27] and the first precise calculations were performed in [28], see also review [29] and subsequent papers [30], which confirmed this result.…”

Section: Neutrino Cmb and Bbnsupporting

confidence: 69%

Three P’s in Cosmology: Progress, Problems, and Perspectives

Dolgov

2014

EPJ Web of Conferences

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Abstract. A review on the development of cosmology for a diverse audience is presented. The first historical part is devoted to the works done half a century ago with an emphasize to those performed in Russia (or more precisely, in the Soviet Union). Then the recent data on the cosmic microwave background raditation is discussed and the impact of these data on the neutrino mass and the number of neutrino species is considered. The latter is compared with the results obtained from the big bang nucleosynthesis. Next, a short description and history of the cosmological inflation is presented. The basics of the standard cosmological model and the problems of dark matter and dark energy are considered at the end of the fist section entitled "Progress". In the next short section, "Problems", one can find a list of the unsolved cosmological and astrophysical problems, which is by no means fully comprehensive. The last supershort section contains a few words about the perspectives of future development.

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Section: Neutrino Cmb and Bbnsupporting

confidence: 69%

Three P’s in Cosmology: Progress, Problems, and Perspectives

Dolgov

2014

EPJ Web of Conferences

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“…The screening mechanism, operational in the braneworld 1 can potentially be tested by observations of h(z). As pointed out in [6], the phantom brane may provide a [1] The cosmological constant can also be dynamically screened in other cosmological scenario's, some of which are discussed in [20]. …”

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confidence: 99%

Constraining the cosmology of the phantom brane using distance measures

2017

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The phantom brane has several important distinctive features: (i) Its equation of state is phantomlike, but there is no future 'big rip' singularity, (ii) the effective cosmological constant on the brane is dynamically screened, because of which the expansion rate is smaller than that in ΛCDM at high redshifts. In this paper, we constrain the Phantom braneworld using distance measures such as Type Ia supernovae (SNeIa), Baryon Acoustic Oscillations (BAO), and the compressed Cosmic Microwave Background (CMB) data. We find that the simplest braneworld models provide a good fit to the data. For instance, BAO +SNeIa data can be accommodated by the braneworld for a large region in parameter space 0 ≤ Ω ℓ < ∼ 0.3 at 1σ. The Hubble parameter can be as high as H0 < ∼ 78 km s −1 Mpc −1 , and the effective equation of state at present can show phantom-like behaviour with w0 < ∼ − 1.2 at 1σ. We note a correlation between H0 and w0, with higher values of H0 leading to a lower, and more phantom-like, value of w0. Inclusion of CMB data provides tighter constraints Ω ℓ < ∼ 0.1. (Here Ω ℓ encodes the ratio of the five and four dimensional Planck mass.) The Hubble parameter in this case is more tightly constrained to H0 < ∼ 71 km s −1 Mpc −1 , and the effective equation of state to w0 < ∼ − 1.1. Interestingly, we find that the universe is allowed be closed or open, with −0.5 < ∼ Ωκ < ∼ 0.5, even on including the compressed CMB data. There appears to be some tension in the low and high z BAO data which may either be resolved by future data, or act as a pointer to interesting new cosmology.

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“…The idea of dynamic compensation of vacuum energy [21,22] looks very promising, at least at first glance. The principle of this compensation is quite simple.…”

Section: Problem Of Vacuum Energymentioning

confidence: 99%

Cosmology and elementary particles, or celestial mysteries

Dolgov

2012

Phys. Part. Nuclei

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This is an extended version of the report at Round Table 2, Italy-Russia Dubna "Space Physics and Biology." Given the diversity of the audience, this paper provides a popular description of the cosmolog ical problems which can be solved only by introduction of new phenomena beyond the minimal standard model of particle physics. The cosmological dark and vacuum energy, dark matter, inflation, and baryogenesis are discussed. In the conclusion, possibilities for a fundamental change in the laws of modern physics are briefly discussed.

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How to see an antistar

Cited by 31 publications

References 15 publications

Three P’s in Cosmology: Progress, Problems, and Perspectives

Three P’s in Cosmology: Progress, Problems, and Perspectives

Constraining the cosmology of the phantom brane using distance measures

Cosmology and elementary particles, or celestial mysteries

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