Entropic Gravity |
In General > s.a. dynamical triangulations;
emergent gravity; information theory.
* Idea: A proposal by
Verlinde in which space is emergent through a holographic scenario;
Gravity is explained as an entropic force caused by changes in the
information associated with the positions of material bodies.
* Two approaches:
Holographic gravity, in which Einstein's equation arises from keeping
entropy stationary in equilibrium under variations of the geometry and
quantum state of a small region, and thermodynamic gravity, in which
Einstein's equation emerges as a local equation of state from constraints
on the area of a dynamical lightsheet in a fixed spacetime background.
@ General references: Verlinde JHEP(11)-a1001,
comments Mäkelä a1001,
Zhao CTP(10)-a1002,
Gao Ent(11)-a1002,
Culetu a1002,
Hossenfelder a1003;
Lee a1005;
Nicolini PRD(10)-a1005;
news NYT(10)jul;
Chivukula a1011;
Zhao IJMPA(11);
Halyo a1104 [in Rindler space];
Mann & Mureika PLB(11)-a1105 [2D];
Chaichian et al PLB(12)-a1109;
Chen & Wang a1112 [where is hbar hiding?];
Gogberashvili & Kanatchikov IJTP(12) [Machian origin];
Cao a1402;
Carroll & Remmen PRD(16)-a1601
+ blog(16)feb [analysis of two approaches];
Abreu et al a1708
[microstates, Tsallis statistics, holographic screen].
@ Arguments against: Kobakhidze PRD(11)-a1009;
Kobakhidze a1108
+ news tr(11)aug;
Roveto & Muñoz a1201 [criticism];
Yang Ent(14)-a1405.
@ Quantum gravity: García-Islas a1411 [lqg].
@ Gravity and complexity growth: Susskind a1802 [GR = QM];
Susskind a1905.
@ Variations: Bastos et al CQG(11)-a1010 [with phase-space non-commutativity];
Pesci CQG(11)-a1002 [from entropy of light];
Lee et al a1002 [quantum entanglement force];
Banerjee & Majhi PRD(10)-a1003 [and statistical mechanics];
Wang a1211 [modified versions, challenge];
Teimouri a1705 [entropic f(R) gravity];
Calderón et al MPLA(19)-a1903 [relativistic, in Tsallis' statistics];
> s.a. brans-dicke theory.
> Online resources:
see Wikipedia page.
Phenomenology and Constraints > s.a. inertia;
semiclassical quantum gravity [entropic corrections].
@ General references: Hendi & Sheykhi PRD(11)-a1012 [corrections to Einstein's equation];
Sahlmann PRD(11)-a1102 [energy equipartition and minimal radius];
Visser JHEP(11)-a1108 [constraints from conservative nature of Newtonian gravity];
Setare et al PS(12) [corrections to Newton's law];
Frampton & Karl a1308 [consequences];
Sefiedgar IJMPD(16)-a1512 [effect on gravitational force];
Yoon & Darriba CQG-a2005 [solar system].
@ Newton's constant G: Klinkhamer CQG(11)-a1006,
MPLA(11)-a1101 [Newtonian gravity, towards a derivation of G];
Shao & Ma ScCh(11)-a1006 [from a length scale l];
Sahlmann CQG(11)-a1010 [models].
@ Entropic dark energy: Basilakos & Solà PRD(14)-a1402;
Mathew et al MPLA(16)-a1506.
@ Cosmological constant:
Tu & Chen a1306 [cosmic acceleration];
Padmanabhan & Padmanabhan IJMPD(14)-a1404;
Díaz-Saldaña et al a1806.
@ Other cosmology: Wei PLB(10)-a1005 [constraints];
Myung ASS(11)-a1005 [holographic screen issue];
Koivisto et al JCAP(11)-a1011;
Qiu & Saridakis PRD(12) [and eternal inflation];
Zumalacárregui a1202-proc;
Dabrowski & Gohar Ent(16)-a1503 [with varying constants];
Abbasi & Gharaati a2006 [and Tsallis entropy];
> s.a. friedmann equation [corrections].
@ And MOND: Li & Chang CTP(11)-a1005;
Klinkhamer & Kopp MPLA(11)-a1104 [from maximum wavelength, or minimum T];
Klinkhamer MPLA(12)-a1201;
Sheykhi & Sarab JCAP(12)-a1206;
Zhang & Li PLB(12);
Milgrom & Sanders a1612;
Diez-Tejedor et al MNRAS(18)-a1612 [dwarf spheroidals];
> s.a. MOND.
@ And non-extensive statistics: Ananias PhyA(12)-a1101;
Abreu et al IJMPA(17)-a1701 [Tsallis and Kaniadakis statistics].
@ And black holes:
Porcelli & Scibona a1011 [and black-hole entropy];
Mehdipour & Keshavarz EPL(12)-a1207 [non-commutative charged black hole and the equivalence principle].
@ Other physics:
Kowalski-Glikman PRD(10) [and topological SO(4,1) BF theory coupled to particles];
Santos & Vancea a1002 [and the uncertainty principle];
Munkhammar a1003 [quantum mechanics];
Mureika & Mann MPLA(11)-a1005 [lower bounds on photon and graviton masses];
Fursaev PRD(10) [and deformations of minimal surfaces];
Momeni IJTP(11)-a1009 [and Brownian motion];
Chaichian et al PLB(11)-a1104;
Lee FP(12)-a1003 [inertia and emergent quantum field theory];
Majumder AHEP(13)-a1310 [and minimal length];
Abreu & Ananias PLB(13) [and entangled states];
> s.a. gauge theories.
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