Progress in Cosmology in the Centenary of the 1917 Einstein Paper
A special issue of Universe (ISSN 2218-1997).
Deadline for manuscript submissions: closed (28 February 2018) | Viewed by 24004
Special Issue Editors
Interests: general relativity; cosmology; gravitational waves; black holes; modified gravitational theories; quantisation; quantum field theory in curved spacetime
Interests: general relativity and gravitation; classical general relativity; post-newtonian approximation, perturbation theory, related approximations; gravitational waves; observational cosmology; mathematical and relativistic aspects of cosmology; modified theories of gravity; higher-dimensional gravity and other theories of gravity; experimental studies of gravity; experimental tests of gravitational theories; geodesy and gravity; harmonics of the gravity potential field; geopotential theory and determination; satellite orbits; orbit determination and improvement; astrometry and reference systems; ephemerides, almanacs, and calendars; lunar, planetary, and deep-space probes
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Interests: alternative theories of gravity; relativisti astrophysics; test of gravity
2. CAS Key Laboratory for Researches in Galaxies and Cosmology, Department of Astronomy, University of Science and Technology of China, Hefei 230026, China
3. Departamento de Matemáticas, Universidad Católica del Norte, Avda. Angamos 0610, Casilla, Antofagasta 1280, Chile
Interests: ark energy formulation; modified theories of gravity; inflationary cosmology; brane cosmology; observational cosmology
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Special Issue Information
Dear Colleagues,
The first modern cosmological models emerged soon after the discovery of general relativity, putting the study of the Universe as a whole on the firm grounds of an empirically testable, coherent science. In the century since then, cosmology has developed into a precision discipline able to explain the evolution of the Universe in several of its aspects. The goal is under the way, but far than ended. The most stringent open questions remain the nature of dark matter (DM) and of dark energy (DE), and whether General Relativity holds on large cosmological scales.
Of course, many independent observation (anisotropies in CMB, large structure, SNIa data, gravitational lensing, galaxy rotational curves etc.) confirm the necessity of the introduction of these dark components.
However, the existence itself of the most likely DM candidates seem to have been seriously challenged by experiments and or astrophysical observations: e.g. supersymmetric DM and WIMPs by LHC; by LUX, PandaX-II and Xenon100; MACHOs by microlensing. Sterile neutrinos by IceCube and high redshift objects. The properties of the DM in galaxies are presently badly explainable by current theoretical scenarios. At present the nature of DM remains a mystery.
Understanding DE poses an even bigger challenge. Although the cosmological constant may explain the accelerated cosmic expansion, its physical interpretation (as vacuum energy) remains doubtful. Question comes what kind of fields can be responsible for the accelerated cosmic expansion. Several scalar field models of DE induce new type of space-time singularities (e.g. soft singularities). Alternative gravitational theories (e.g. scalar-tensor theories, the emergent gravity model of Verlinde) have been also proposed with the purpose to explain the dark sector.
We invite colleagues to submit papers on the topics:
1: The nature of Dark matter and DE
2: Present/future experiments and observations related to DM, DE and their gravitational effects.
3: Models on DM and DE including the alternative gravitational theories, new fields and their possible interaction with the particles of standard model.
4: Evolution of the Universe, cosmological perturbations, formation of nonlinear structures, first objects.
5: Inflation, initial structure, primordial gravitational waves.
6: Primordial black/white holes, their formation and gravitational waves, their effects on the synthesis of light elements.
7: Anisotropic cosmological models and their perturbations.
8: Exotic singularities, wormholes occurring in cosmological models and in virialized structure.
Dr. Zoltán Keresztes
Prof. Lorenzo Iorio
Prof. Dr. Mariafelicia De Laurentis
Prof. Emmanuel Saridakis
Guest Editors
Manuscript Submission Information
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Keywords
- dark matter
- dark energy
- cosmological perturbation
- large scale structure
- inflation
- baryon-anti baryon asymmetry
- primordial nucleosynthesis
- rotation curves
- Supermassive Black Holes
- recombination
- primordial black/white holes
- alternative gravitational theories
- exotic singularities
- wormholes
- anistropic expansion of the Universe
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