Special Issue "Modified Gravity: From Black Holes Entropy to Current Cosmology III"
Deadline for manuscript submissions: closed (28 February 2022) | Viewed by 8414
Interests: particle cosmology; gravity theory; inflation; late time acceleration
Special Issues, Collections and Topics in MDPI journals
Special Issue in Entropy: Holographic Principle and Its Application
Special Issue in Universe: Modified Gravity Cosmology: From Inflation to Dark Energy
Special Issue in Symmetry: Cosmological Inflation, Dark Matter and Dark Energy
Special Issue in Galaxies: Relativistic Cosmology, Numerical Analysis, General Relativity and Modified Gravity Theories
Special Issue in Universe: Origins and Natures of Inflation, Dark Matter and Dark Energy
Special Issue in Universe: Universe: Feature Papers 2023 – Cosmology
Special Issue in Entropy: Modified Gravity: From Black Holes Entropy to Current Cosmology IV
Recent cosmological observations strongly support that the current expansion of the universe is accelerating. The origin of such a cosmic acceleration mechanism is one of the most significant problems in modern cosmology. Indeed, this is shown by the fact that the Nobel Prize in Physics 2011 was presented to the finding of the current cosmic acceleration by means of the observations of the Type Ia supernovae.
There are two representative approaches to explain the current accelerated expansion of the universe. One is to introduce “dark energy” in the framework of general relativity. The other is to modify a gravitational theory, such as F(R) gravity, so that we can obtain so-called geometrical dark energy. It is believed that a modified gravitational theory must pass cosmological bounds and solar system tests because it corresponds to an alternative theory of gravitation to general relativity. As another meaningful touchstone of modified gravity, it is important to examine whether the second law of thermodynamics can be satisfied in the models of modified gravity.
The fundamental connection between gravitation and thermodynamics has been suggested by the discovery of black hole thermodynamics with black hole entropy and Hawking temperature. In addition, it was shown that the Einstein equation can be derived from the proportionality of the entropy to the horizon area together with the Clausius relation in thermodynamics. This consequence has been applied to various cosmological settings as well as modified gravitational theories. In particular, the connections between thermodynamics and modified gravity have recently been discussed extensively.
In this special issue, we discuss the application of thermodynamics to the test of a successful alternative gravitational theory to general relativity. Through this procedure, we can obtain a clue to resolve the dark energy problem “geometrically”. It is considered that any successful modified gravity theory should obey the second law of thermodynamics. If the second law is violated in certain universes in a model, it is more likely to be due to an incorrect generalization of the second law or some inherent inconsistency of the model itself. For the latter case, the model should be abandoned. It is strongly expected that the considerations of this special issue can produce our new physical understanding on entropy in the context of the relation between thermodynamics and gravitation and shed light on novel ingredients as well as insights on modern cosmology, in particular new properties of dark energy.
Prof. Dr. Kazuharu Bamba
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- Quantum aspects of black holes, evaporation, thermodynamics
- Black hole entropy
- Modified theories of gravity
- Dark energy