Download presentation
Presentation is loading. Please wait.
Published byCody Ryan Modified over 9 years ago
1
Entropic Gravity SISSA, Statistical Physics JC Friday 28, 2011 E. Verlinde, arXiv: 1003.4464v2 [hep-th]
2
F EntropyEntropy
3
Outlook Background: Holographic Principle (Black Hole Thermodynamics, Entropy Bound) Verlinde argument for an entropic gravity (II principle of dynamics, Newton’s law of gravity) … editorial discussion
4
Black body radiation
5
R E A
6
Toward the holographic principle… 100 bits of information Number of degrees of freedom Ex 3 Quantum field theory V oscillators and n states per oscillator
7
How many different states can be in a region to describe all the physics inside of it? What is the entropy of the «fundamental system»? A region with boundary of area A is fully described by no more than A/4 degrees of freedom, or about 1 bit of information per Planck area
8
Outlook Background: Holographic Principle (Black Hole Thermodynamics, Entropy Bound) Verlinde argument for an entropic gravity (II principle of dynamics, Newton’s law of gravity) … editorial discussion
9
SPACE as a storage of information Holographic screen … nothing yet… Emerged space 110 011 110 010 001 111 101 001 We further assume the theory has a notion of time and that its dynamics is traslational invariant Energy Stat. Phys. Temperature
10
Holographic screen Unruh Effect Force and Inertia
11
Newton’s law of gravity Holographic principle T
12
(i)The number of degrees of freedom is proportional to the area of the screen (Holographic principle) (ii)The energy is evenly distributed over these degrees of freedom (iii) There is a change of entropy in the emergent direction Bekenstein + Unruh
13
ɸ is a coarse-graining variable Coarse- Graining Space is emerging! Amount of coarse graining
14
Dark Energy
15
Unruh Effect It works for dimensional consistency!
16
References E. Verlinde ‘On the origin of Gravity and the Newton laws’ S.Gao Comment on "On the Origin of Gravity and the Laws of Newton" A. Chivukula ‘Gravity as an entropic phenomenon’ T. Jacobson, ‘Thermodynamics of Spacetime’ Phys. Rev. Lett. (1995) R. Bousso ‘The holographic principle’ R. Ruffini and H. Ohanian ‘Gravitation and spacetime’
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.