Entropic Gravity SISSA, Statistical Physics JC Friday 28, 2011 E. Verlinde, arXiv: 1003.4464v2 [hep-th]

Slides:

Advertisements

Similar presentations

ICHEP conference, Paris, 22/07/10. Emergence Current Paradigm FUNDAMENTAL FORCES: carried by elementary particles.

Advertisements

Rainbow Gravity and the Very Early Universe Yi Ling Center for Gravity and Relativistic Astrophysics Nanchang University, China Nov. 4, Workshop.

1 Andreas Albrecht UC Davis APS Meeting Philadelphia, April 2003 Title Cosmic acceleration and fundamental physics.

 Entanglement & area thermodynamics of Rindler space  Entanglement & area  Entanglement & dimensional reduction (holography) Entanglement, thermodynamics.

{Based on PRD 81 (2010) [ ], joint work with X.-N. Wu}

Hydrodynamic transport near quantum critical points and the AdS/CFT correspondence.

Tomographic approach to Quantum Cosmology Cosimo Stornaiolo INFN – Sezione di Napoli Fourth Meeting on Constrained Dynamics and Quantum Gravity Cala Gonone.

Energy. Simple System Statistical mechanics applies to large sets of particles. Assume a system with a countable set of states.  Probability p n  Energy.

Gerard ’t Hooft Spinoza Institute Utrecht University CMI, Chennai, 20 November 2009 arXiv:

Astronomy and Cosmologies Wed.18.May 2005, last lecture, Spring 2005, Zita Age of the universe – finish H workshop Your questions on Cosmology and the.

Holographic Dark Energy Preety Sidhu 5 May Black Holes and Entropy Black holes are “maximal entropy objects” Entropy of a black hole proportional.

PHYS 43, SRJC, Spring ’11: May 12, 2011 Joshua Chen, David Tran, and Eileen O’Byrne- Hudson.

AdS4/CFT3+gravity for Accelerating Conical Singularities arXiv: arXiv: Mohamed Anber HET Bag Lunch Novemberr 12th.

Entropy, holography and the second law Daniel R. Terno PERIMETER INSTITUTE FOR THEORETICAL PHYSICS.

BLACK HOLES AS INFORMATION SCRAMBLERS How information survives falling into a black hole Master thesis Wilke van der Schee Supervised by prof. Gerard ’t.

Physics 361 Principles of Modern Physics Lecture 3.

Julia Sickels - jns5224 Sam Fisher - sef5176 Alyssa Hawras - aoh5295.

CERN Colloquium, 28/04/11. Matter and Forces Current Paradigm FUNDAMENTAL FORCES: carried by elementary particles.

Entropy bounds Introduction Black hole entropy Entropy bounds Holography.

Entropy localization and distribution in the Hawking radiation Horacio Casini CONICET-Intituto Balseiro – Centro Atómico Bariloche.

Williams Research Gravity Pharis E. Williams 19 th Natural Philosophy Alliance Albuquerque, NM July, 2012.

Fundamental gravitational limitations to quantum computing Rafael A. Porto (Carnegie Mellon U. & University of the Republic, Uruguay.) In collaboration.

Konstantinos Dimopoulos Lancaster University Contemporary Physics 50 (2009) arXiv: [hep-ph] Invited contribution to 50 th Anniversary.

George E. A. Matsas Instituto de Física Teórica/ Unesp Search for low-energy semi-classical gravity effects.

Einstein Field Equations and First Law of Thermodynamics Rong-Gen Cai （蔡荣根） Institute of Theoretical Physics Chinese Academy of Sciences.

Thermodynamics of Apparent Horizon & Dynamics of FRW Spacetime Rong-Gen Cai （蔡荣根） Institute of Theoretical Physics Chinese Academy of Sciences.

Dimensionalities of Space-Time Yu, Hoi-Lai 16 th Oct NTHU.

Celebrate the 60 th Birthdays of Professors Takashi Nakamura and Kei-ichi Maeda From Rong-Gen Cai.

Rong -Gen Cai ( 蔡荣根） Institute of Theoretical Physics Chinese Academy of Sciences Holography and Black Hole Physics TexPoint fonts used in EMF: AA.

Black Holes. Objectives of this Unit Recognize that a gravitational force exists between any two objects. This force is proportional to the masses and.

Shear viscosity of a highly excited string and black hole membrane paradigm Yuya Sasai Helsinki Institute of Physics and Department of Physics University.

P. Castorina Dipartimento di Fisica ed Astronomia Università di Catania-Italy November 2014 Bielefeld CPOD 2014 Hadron Freeze-Out and Unruh Radiation.

General proof of the entropy principle for self-gravitating fluid in static spacetimes 高思杰 (Gao Sijie) 北京师范大学 (Beijing Normal University)

Quantum Two 1. 2 Angular Momentum and Rotations 3.

On Fuzzball conjecture Seiji Terashima (YITP, Kyoto) based on the work (PRD (2008), arXiv: ) in collaboration with Noriaki Ogawa (YITP)

Black hole For large enough masses, as far as we know, nothing is stiff enough to stop the collapse. It continues down to a singularity: a defect in space.

1 Black-Hole Thermodynamics PHYS 4315 R. S. Rubins, Fall 2009.

Hawking radiation as tunneling Baocheng Zhang Wuhan institute of Physics and Mathematics Chinese Academy of Sciences.

From Black Hole Entropy to the Cosmological Constant Modified Dispersion Relations: from Black Hole Entropy to the Cosmological Constant Remo Garattini.

Comments on entanglement entropy in the dS/CFT correspondence Yoshiki Sato （ Kyoto U. ） PRD 91 (2015) 8, [arXiv: ] 9th July.

Space-time Invariance and Quantum Gravity By Dr. Harold WilliamsDr. Harold Williams of Montgomery College PlanetariumMontgomeryCollegePlanetarium.

Holographic Dark Energy and Anthropic Principle Qing-Guo Huang Interdisciplinary Center of Theoretical Studies CAS

Black Holes and the Fluctuation Theorem Susumu Okazawa ( 総研大, KEK) with Satoshi Iso and Sen Zhang, arXiv: work in progress.

Birthday of Quantum Physics on 14 th December, 1900 Max Karl Ernst Ludwig Planck Planck introduces a new fundamental constant h to explain black-body.

Entanglement in Quantum Gravity and Space-Time Topology

T. K. Ng (HKUST) The classical Universe Plan: This lecture: Review Pre-relativity/Quantum Mechanics picture of our physical universe You will learn some.

Quantum asymmetry between time and space &

Horizon thermodynamics of Lovelock black holes David Kubizňák (Perimeter Institute) Black Holes' New Horizons Casa Matemática Oaxaca, BIRS, Oaxaca, Mexico.

Hawking radiation as tunneling from squashed Kaluza-Klein BH Ken Matsuno and Koichiro Umetsu (Osaka city university) (Kyoto sangyo university) Phys. Rev.

Syllabus Note : Attendance is important because the theory and questions will be explained in the class. II ntroduction. LL agrange’s Equation. SS.

Based on Phys. Rev. D 92, (R) (2015) 中科大交叉学科理论研究中心

Jae-Weon Lee (Jungwon univ.) Collaboration with JJLEE & HCKIM.

Gravity field equations can be derived from the thermodynamic relation for any metric theory of gravity Merav Hadad Ram Brustein, M.H

Macroscopic Quantum Geometry Craig Hogan University of Chicago and Fermilab.

Gravity on Matter Equation of State and the Unruh temperature Hyeong-Chan Kim (KNUT) 2016 FRP workshop on String theory and cosmology Seoul, Korea, June.

STATISTICAL MECHANICS PD Dr. Christian Holm PART 5-6 Some special topics, Thermal Radiation, and Plank distribution.

Florian Girelli: I decided to study the fundamental nature of space-time when finishing high-school. My university/research cursus: Master of Mathematics.

Equation of State and Unruh temperature

Ewha Womans University, Seoul, Korea

Quantum mechanics, entropic gravity, &

Thermodynamic Volume in AdS/CFT

Gravity from quantum entanglement Jae-Weon Lee (Jungwon univ.)

Gravity: A Force of Attraction

Solutions of black hole interior, information paradox and the shape of singularities Haolin Lu.

Derek Kan Khalid Mansour Ian Nickles

Space-time Invariance and Quantum Gravity

Physics 1 Review AP Physics 2.

The case for emergent gravity

Lesson 13: Gravitational Force

Entropic Gravity Miao Li 中国科学院理论物理研究所

Presentation transcript:

Entropic Gravity SISSA, Statistical Physics JC Friday 28, 2011 E. Verlinde, arXiv: v2 [hep-th]

F EntropyEntropy

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

Black body radiation

R E A

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

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

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

SPACE as a storage of information Holographic screen … nothing yet… Emerged space We further assume the theory has a notion of time and that its dynamics is traslational invariant Energy Stat. Phys. Temperature

Holographic screen Unruh Effect Force and Inertia

Newton’s law of gravity Holographic principle T

(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

ɸ is a coarse-graining variable Coarse- Graining Space is emerging! Amount of coarse graining

Dark Energy

Unruh Effect It works for dimensional consistency!

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’