Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nuclear Forces from String Theory Koji Hashimoto (RIKEN, Mathematical physics lab) 22 nd July arXiv/1003.4988 N.Iizuka, P.Yi, KH arXiv/0809.3141,0910.2303.

Published byFrederick Singleton Modified over 9 years ago

Similar presentations

Presentation on theme: "Nuclear Forces from String Theory Koji Hashimoto (RIKEN, Mathematical physics lab) 22 nd July arXiv/1003.4988 N.Iizuka, P.Yi, KH arXiv/0809.3141,0910.2303."— Presentation transcript:

1 Nuclear Forces from String Theory Koji Hashimoto (RIKEN, Mathematical physics lab) 22 nd July 2010 @ECT* arXiv/1003.4988 N.Iizuka, P.Yi, KH arXiv/0809.3141,0910.2303 KH arXiv/1005.4412 N.Iizuka, KH arXiv/0901.4449 T.Sakai, S.Sugimoto, KH arXiv/0911.1035 N.Iizuka, T.Nakatsukasa, KH

2 Superstring may not be useless

3 M(atrix) theory Nuclear matrix model [Iizuka, Yi, KH (2010)] [Banks, Fischler, Shenker, Susskind (1996)]

4 Problem String theory is useless Cause Interesting aspects of QCD lie at strong coupling region Our solution QCD + Superstring mathematics (“holography”) Higher dimensional gravity + gauge, Nuclear Matrix Model Proper limit Nuclear force, phase diagram Solve QCD : difficult Various aspects of QCD : necessity to map whole QCD to effective description

5 Mesons : Spectra, interactions, Skyrme term, Vector meson dominance, Hidden local symmetry, Chiral perturbations, Quark mass effects, … What can superstring compute? Baryons : Spectra, interactions, nuclear forces, 3-body nuclear forces, Giant resonances, … Exotics : Glueball spectra, Glueball decays, … General : Chiral condensate, Quark antiquark forces, Wilson / Polyakov loop, Phase diagram, Gluon scattering, … Hot QCD : Deconfinement transition, Chiral restoration, Quark gluon plasma, Viscosity, Jet quenching parameters, Quark drag force, meson melting and decay width, … Dense QCD : Chiral restoration, Color superconductor, Meson mass in nuclear matter, … Caveat : Large N c, “QCD” with junk massive fields

6 Caveat QCD SU(Nc) QCD + extra massive matter 2 parameters generalize 1 parameter Superstring mathematics Hadronic theory Large Nc + 1/Nc corrections Large Nc hadronic theory 1) 2 parameters : QCD coupling and QCD scale 2) Large Nc expansion

7 Holographic QCD : two physics connected Large N c “QCD” Superstring Meson sector Glueball sector Supergravity in 10d curved spacetime Flavor U(N f ) Yang-Mills in higher dim. BaryonD-brane in 10d spacetime QCD string Fundamental string in curved space Chiral sym.breakingHiggsing Flavor gauge symmetries Finite temperatureHawking temperature DeconfinementEvent horizon of Black hole Dense matterElectric field on Flavor U(N f ) Color superconductorD-brane melting

8 SuperstringExperiment Couplings, Radii of Nucleon Lattice [Sakai,Sugimoto,KH (0806.3122)] (0.74 fm) 2 0 0.54 fm 2.2 – 1.3 0.73 7.5 5.8 4.4 2.3 0.20 –1.9 (0.875 fm) 2 – 0.116 fm 2 0.674 fm 2.79 –1.91 1.27 13.2 4.2 – 6.5 3.7 – 7.5 – 4.99 2.49 0.06 –2.45

9 Nucleon Form factor Superstring : Experiment (empirically known dipole behavior) [Sakai,Sugimoto,KH 0806.3122] Nucleon mass vs. Quark mass higher. Superstring : [Hirayama,Hong,KH, 0906.0402] Lattice :

10 Hyperon Spectra Our inputs : Mass splitting of baryons with Superstring [Iizuka,Ishii,Kadoh,KH, 0910.1179]

11 Meson mass in dense matter [Ishii,KH (in progress)] Superstring : -6%

12 Plan Nuclear matrix model Holography Phase diagram

13 Superstring derives multi-nucleon system “Nuclear Matrix Model” : Multi-Baryons at short distances : A x A Hermitian matrix Eigenvalues of  location of A baryons [Iizuka,Yi, KH 1003.4988] Nuclear physics Only two parameters :,

14 A=1 : Baryon spectrum Hamiltonian spectrum : :inputs 940 +,1359 +,1359 -,1778 +,1778 -,… 940 +,1440 +,1535 -,1710 +,1655 -,… Exp. : A=2 : Nuclear force, repulsive core Repulsive core, Universal (even for 3 flavors), Scaling : 1/r 2 [Iizuka,Yi, KH 1003.4988] [Iizuka, S.Aoki, KH, in progress]

15 p n A=3 : 3-body nuclear force pn He-3 nucleus nn Neutron star spin : averaged All positive [Iizuka, KH,1005.4412] [Iizuka, Nakatsukasa, KH, 0911.1035] Large A : Giant resonances [KH (0809.3141,0910.2303)] Cross-section Excitation energy Giant Resonance Pb nucleus Exp.: Reproducing A dependence

16 Plan Nuclear matrix model Holography Phase diagram

17 = Source of closed strings = Source of gravity = Extended blackhole “blackbrane” in 10D Why? D-branes giving the tool Quantizing strings defined in 10D spacetime Open string Massless gauge field Closed string Massless graviton D-branes = Object on which open strings can end Deform Open string theory on the Dp-brane is : SU(Nc) gauge theory in p+1 dimensions Nc open strings Nc parallel Dp-branes 2

18 Holography : Glueball  Gravity Black brane Nc D-branes Propagation of SU(Nc) gauge theory composite states Propagation of graviton in near-horizon geometry of black p-brane (Glueball) Gluon Large Nc Large λ

19 N f “flavor D-brane” Propagation of meson U(N f ) gauge fields in higher dim. D-brane on curved background Quark Holography : Meson  Gauge boson in 10 dim

20 Baryon D-brane Holography : Baryon  D-brane

21 Holography : Multi Nucleon  Matrix A nucleons = Nucleus A x A matrix model

22 Black hole Holography : Heavy Nucleus  Black hole Heavy Nucleus

23 Plan Nuclear matrix model Holography Phase diagram

24 Toy model of QCD : N=2 Super QCD Nc D3 Nf D7 distance ~ quark mass D3-D7 model [Karch, Katz (0205236)] No running of gauge coupling (conformal, strongly coupled) Gluons: deconfined Discrete meson states

25 Chemical potential and phase transition Chemical potential = asymptotic value of on D7. Flat Spike Temperature = Hawking temperature of Black hole Gluon : deconfined Meson : discrete Gluon : deconfined Meson : continuous Two solutions for the D7 shape

26 Phase diagram of N=2 super QCD Spiky shape is favored for large [Kobayashi,Mateos,Matsuura,Myers,Thomson (06)] [Karch,O’Bannon(07)] [Nakamura,Seo,Sin,Yogendran (07)] [Gohroku,Ishihara,Nakamura(07)] QGP Hadron High density, Color superconductor?

27 Color superconductor in N=2 Super QCD ? Quarks are accompanied by Squarks  When baryon chemical potential is turned on, the squarks get condensed first!  Color-Flavor Locking, Higgs phase D3 D7 YM instanton Dissolution of D3 into D7 = YM instanton = Squark condensation (Higgs phase) [Chen, Matsuura, KH (09)]

28 Three phases of N=2 Super QCD D3 size E Low T High T

29 Phase diagram of N=2 Super QCD QGP [Chen, Matsuura, KH (09)] Color-Flavor locking (Higgs) Hadron

30 Phase diagram of non-SUSY large Nc QCD QGP Color-Flavor locking (Higgs) Hadron ? [Aharony,Sonnenschein,Yankielowicz(06)] [Kim, Sin, Zahed(06)] [Horigome,Tanii(06)] [Bergman, Lifschytz, Lippert (07)] [Chuang, Dai, Kawamoto, Lin, Yeh (2010)]

31 Problem String theory is useless Cause Interesting aspects of QCD lie at strong coupling region Our solution QCD + Superstring mathematics (“holography”) Higher dimensional gravity + gauge, Nuclear Matrix Model Proper limit Nuclear force, phase diagram Solve QCD : difficult Various aspects of QCD : necessity to map whole QCD to effective description

Download ppt "Nuclear Forces from String Theory Koji Hashimoto (RIKEN, Mathematical physics lab) 22 nd July arXiv/1003.4988 N.Iizuka, P.Yi, KH arXiv/0809.3141,0910.2303."

Similar presentations

1 Holographic description of Hadrons from String Theory Shigeki Sugimoto (IPMU) Rencontres de Moriond, March 25, La Thuile, Italy (based on works.

1 Holographic description of Hadrons from String Theory Shigeki Sugimoto (IPMU) Rencontres de Moriond, March 25, La Thuile, Italy (based on works.
Analysis of QCD via Supergravity S. Sugimoto (YITP) based on hep-th/0412141 (T. Ibaraki + S.S.) Windows to new paradigm in particle Sendai.

Analysis of QCD via Supergravity S. Sugimoto (YITP) based on hep-th/ (T. Ibaraki + S.S.) Windows to new paradigm in particle Sendai.
Baryons with Holography Hideo SUGANUMA ( Kyoto Univ. ) Toru KOJO ( Kyoto Univ. ) Kanabu NAWA ( RCNP ) in collaboration with.

Baryons with Holography Hideo SUGANUMA ( Kyoto Univ. ) Toru KOJO ( Kyoto Univ. ) Kanabu NAWA ( RCNP ) in collaboration with.
Spectroscopy of fermionic operators in AdS/CFT with flavor Ingo Kirsch Workshop „QCD and String Theory“ Ringberg Castle, Tegernsee, July 2-8, 2006 I. K.,

Spectroscopy of fermionic operators in AdS/CFT with flavor Ingo Kirsch Workshop „QCD and String Theory“ Ringberg Castle, Tegernsee, July 2-8, 2006 I. K.,
Selected Topics in AdS/CFT lecture 1

Selected Topics in AdS/CFT lecture 1
With Y. Seo, J.P. Shock, D. Zoakos(0911.xxxx) CY.Park, KH. Jo, BH Lee( 0909.3914 )

With Y. Seo, J.P. Shock, D. Zoakos(0911.xxxx) CY.Park, KH. Jo, BH Lee( )
The Phase Diagram of Nuclear Matter Oumarou Njoya.

The Phase Diagram of Nuclear Matter Oumarou Njoya.
Lattice QCD (INTRODUCTION) DUBNA WINTER SCHOOL 1-2 FEBRUARY 2005.

Lattice QCD (INTRODUCTION) DUBNA WINTER SCHOOL 1-2 FEBRUARY 2005.
Precision Holographic Baryons PILJIN YI (KIAS) Baryons 2010, Osaka, December 2010 Koji Hashimoto Deog-Ki Hong Norihiro Iizuka Youngman Kim Sangmin Lee.

Precision Holographic Baryons PILJIN YI (KIAS) Baryons 2010, Osaka, December 2010 Koji Hashimoto Deog-Ki Hong Norihiro Iizuka Youngman Kim Sangmin Lee.
Topological current effect on hQCD at finite density and magnetic field Pablo A. Morales Work in collaboration with Kenji Fukushima Based on Phys. Rev.

Topological current effect on hQCD at finite density and magnetic field Pablo A. Morales Work in collaboration with Kenji Fukushima Based on Phys. Rev.
Baryon Chemical Potential in AdS/CFT Shin Nakamura CQUeST and Hanyang Univ. Refs. S.N.-Seo-Sin-Yogendran, hep-th/0611021 and arXiv:0708.2818(hep-th)

Baryon Chemical Potential in AdS/CFT Shin Nakamura CQUeST and Hanyang Univ. Refs. S.N.-Seo-Sin-Yogendran, hep-th/ and arXiv: (hep-th)
Giant Magnon and Spike Solutions in String Theories Bum-Hoon Lee Center for Quantum SpaceTime(CQUeST)/Physics Dept. Sogang University, Seoul, Korea PAQFT08,

Giant Magnon and Spike Solutions in String Theories Bum-Hoon Lee Center for Quantum SpaceTime(CQUeST)/Physics Dept. Sogang University, Seoul, Korea PAQFT08,
3rd International Workshop On High Energy Physics In The LHC Era.

3rd International Workshop On High Energy Physics In The LHC Era.
Glueball Decay in Holographic QCD

Glueball Decay in Holographic QCD
QCD – from the vacuum to high temperature an analytical approach an analytical approach.

QCD – from the vacuum to high temperature an analytical approach an analytical approach.
Large N c QCD Towards a Holographic Dual of David Mateos Perimeter Institute ECT, Trento, July 2004.

Large N c QCD Towards a Holographic Dual of David Mateos Perimeter Institute ECT, Trento, July 2004.
Field Theory: The Past 25 Years Nathan Seiberg (IAS) The Future of Physics October, 2004 A celebration of 25 Years of.

Field Theory: The Past 25 Years Nathan Seiberg (IAS) The Future of Physics October, 2004 A celebration of 25 Years of.
A CRITICAL POINT IN A ADS/QCD MODEL Wu, Shang-Yu (NCTU) in collaboration with He, Song, Yang, Yi and Yuan, Pei-Hung 1301.0385, to appear in JHEP

A CRITICAL POINT IN A ADS/QCD MODEL Wu, Shang-Yu (NCTU) in collaboration with He, Song, Yang, Yi and Yuan, Pei-Hung , to appear in JHEP
New Frontiers in QCD, October 28th, 2011 Based on K. Kim, D. Jido, S.H. Lee PRC 84(2011)025204 K. Kim, Y. Kim, S. Takeuchi, T. Tsukioka PTP 126(2011)735.

New Frontiers in QCD, October 28th, 2011 Based on K. Kim, D. Jido, S.H. Lee PRC 84(2011) K. Kim, Y. Kim, S. Takeuchi, T. Tsukioka PTP 126(2011)735.
The Quantum Space-Time Juan Maldacena Institute for Advanced Study 25 th Solvay Conference October 2011.

The Quantum Space-Time Juan Maldacena Institute for Advanced Study 25 th Solvay Conference October 2011.

Similar presentations

Ads by Google