The spectrum of 3d 3-states Potts model and universality

Slides:

Advertisements

Similar presentations

THE ISING PHASE IN THE J1-J2 MODEL Valeria Lante and Alberto Parola.

Advertisements

Theory of the pairbreaking superconductor-metal transition in nanowires Talk online: sachdev.physics.harvard.edu Talk online: sachdev.physics.harvard.edu.

Large Nc Gauge Theories on the lattice Rajamani Narayanan Florida International University Rajamani Narayanan August 10, 2011.

Štefan Olejník Institute of Physics, Slovak Academy of Sciences, Bratislava, Slovakia Coulomb energy, remnant symmetry in Coulomb gauge, and phases of.

Scaling properties of the chiral phase transition in the low density region of two-flavor QCD with improved Wilson fermions WHOT-QCD Collaboration: S.

Lattice QCD (INTRODUCTION) DUBNA WINTER SCHOOL 1-2 FEBRUARY 2005.

Topological current effect on hQCD at finite density and magnetic field Pablo A. Morales Work in collaboration with Kenji Fukushima Based on Phys. Rev.

Yu Nakayama (Kavli IPMU, Caltech)

Naoki Yamamoto (Univ. of Tokyo) Tetsuo Hatsuda (Univ. of Tokyo) Motoi Tachibana (Saga Univ.) Gordon Baym (Univ. of Illinois) Phys. Rev. Lett. 97 (2006)

WORM ALGORITHM APPLICATIONS Nikolay Prokofiev, Umass, Amherst Boris Svistunov, Umass, Amherst Igor Tupitsyn, PITP Vladimir Kashurnikov, MEPI, Moscow Massimo.

N F = 3 Critical Point from Canonical Ensemble χ QCD Collaboration: A. Li, A. Alexandru, KFL, and X.F. Meng Finite Density Algorithm with Canonical Approach.

Functional renormalization – concepts and prospects.

CONFINEMENT WITHOUT A CENTER: THE EXCEPTIONAL GAUGE GROUP G(2) M I C H E L E P E P E U n i v e r s i t y o f B e r n (S w i t z e r l a n d)

QCD – from the vacuum to high temperature an analytical approach an analytical approach.

Monte Carlo Evidence of the Haldane Conjecture Bartolome Allés ( INFN Pisa ) Alessandro Papa ( Univ. Calabria ) XIV SMFT Workshop, September 3, 2008, Bari.

Critical Scaling at the Jamming Transition Peter Olsson, Umeå University Stephen Teitel, University of Rochester Supported by: US Department of Energy.

Monte Carlo Simulation of Ising Model and Phase Transition Studies

Functional renormalization group equation for strongly correlated fermions.

Chap.3 A Tour through Critical Phenomena Youjin Deng

Critical Scaling at the Jamming Transition Peter Olsson, Umeå University Stephen Teitel, University of Rochester Supported by: US Department of Energy.

Jamming Peter Olsson, Umeå University Stephen Teitel, University of Rochester Supported by: US Department of Energy Swedish High Performance Computing.

Kenji Morita 21 May 2011Three Days on Quarkyonic Poland1 Probing deconfinement in a chiral effective model with Polyakov loop from imaginary.

The Ising Model of Ferromagnetism by Lukasz Koscielski Chem 444 Fall 2006.

1 Debye screened QGP QCD : confined Chiral Condensate Quark Potential Deconfinement and Chiral Symmetry restoration expected within QCD mm symmetryChiral.

Monte Carlo Simulation of Ising Model and Phase Transition Studies By Gelman Evgenii.

Monte Carlo Simulation of Interacting Electron Models by a New Determinant Approach Mucheng Zhang (Under the direction of Robert W. Robinson and Heinz-Bernd.

QCD Phase Diagram from Finite Energy Sum Rules Alejandro Ayala Instituto de Ciencias Nucleares, UNAM (In collaboration with A. Bashir, C. Domínguez, E.

Minimal SO(10)×A4 SUSY GUT ABDELHAMID ALBAID In Collaboration with K. S. BABU Oklahoma State University.

Finite Density with Canonical Ensemble and the Sign Problem Finite Density Algorithm with Canonical Ensemble Approach Finite Density Algorithm with Canonical.

A direct relation between confinement and chiral symmetry breaking in temporally odd-number lattice QCD Lattice 2013 July 29, 2013, Mainz Takahiro Doi.

Universal Behavior of Critical Dynamics far from Equilibrium Bo ZHENG Physics Department, Zhejiang University P. R. China.

9. Convergence and Monte Carlo Errors. Measuring Convergence to Equilibrium Variation distance where P 1 and P 2 are two probability distributions, A.

International Workshop on Complex Networks, Seoul (23-24 June 2005) Vertex Correlations, Self-Avoiding Walks and Critical Phenomena on the Static Model.

Introduction to Lattice Simulations. Cellular Automata What are Cellular Automata or CA? A cellular automata is a discrete model used to study a range.

Imaginary Chemical potential and Determination of QCD phase diagram

8. Selected Applications. Applications of Monte Carlo Method Structural and thermodynamic properties of matter [gas, liquid, solid, polymers, (bio)-macro-

Different symmetry realizations in relativistic coupled Bose systems at finite temperature and densities Collaborators: R.L.S. Farias and R.O. Ramos Rodrigo.

Outline 1.Critical short-time dynamics ― hot start & cold start ― 2. Application to lattice gauge theory ― extract critical exponents ― 3. Summary Short-Time.

What can conformal bootstrap tell about QCD chiral phase transition? Yu Nakayama （ Kavli IPMU & Caltech ） In collaboration with Tomoki Ohtsuki.

Scaling study of the chiral phase transition in two-flavor QCD for the improved Wilson quarks at finite density H. Ohno for WHOT-QCD Collaboration The.

Workshop on Optimization in Complex Networks, CNLS, LANL (19-22 June 2006) Application of replica method to scale-free networks: Spectral density and spin-glass.

Large N reduction and supersymmetry MCFP Workshop on Large N Gauge Theories, May 13-15, 2010, University of Maryland, College Park Jun Nishimura (KEK Theory.

Color neutrality effects in the phase diagram of the PNJL model A. Gabriela Grunfeld Tandar Lab. – Buenos Aires - Argentina In collaboration with D. Blaschke.

Non-Fermi Liquid Behavior in Weak Itinerant Ferromagnet MnSi Nirmal Ghimire April 20, 2010 In Class Presentation Solid State Physics II Instructor: Elbio.

WHOT-QCD Collaboration Yu Maezawa (RIKEN) in collaboration with S. Aoki, K. Kanaya, N. Ishii, N. Ukita, T. Umeda (Univ. of Tsukuba) T. Hatsuda (Univ. of.

1 Unusual magnetic ordering due to random impurities and frustration Tim Saunders Supervisor: John Chalker.

A.G., Tsukuba, 16 July New advances in numerical simulations of theta-vacuum systems V. Azcoiti, V. LalienaZaragoza U. G. Di CarloINFN-Gran Sasso.

Some physical properties of disorder Blume-Emery-Griffiths model S.L. Yan, H.P Dong Department of Physics Suzhou University CCAST

The QCD phase diagram and fluctuations Deconfinement in the SU(N) pure gauge theory and Polyakov loop fluctuations Polyakov loop fluctuations in the presence.

Computational Physics (Lecture 10) PHY4370. Simulation Details To simulate Ising models First step is to choose a lattice. For example, we can us SC,

Functional Integration in many-body systems: application to ultracold gases Klaus Ziegler, Institut für Physik, Universität Augsburg in collaboration with.

ICTP School and Workshop on Structure and Function of complex Networks (16-28 May 2005) Structural correlations and critical phenomena of random scale-free.

공정 열역학 Chapter 3. Volumetric Properties of Pure Fluids

Deconfinement and chiral transition in finite temperature lattice QCD Péter Petreczky Deconfinement and chiral symmetry restoration are expected to happen.

NTNU 2011 Dimer-superfluid phase in the attractive Extended Bose-Hubbard model with three-body constraint Kwai-Kong Ng Department of Physics Tunghai University,

Low energy scattering and charmonium radiative decay from lattice QCD

Matter-antimatter coexistence method for finite density QCD

Lattice QCD at finite temperature Péter Petreczky

Computational Physics (Lecture 10)

Thermodynamics of QCD in lattice simulation with improved Wilson quark action at finite temperature and density WHOT-QCD Collaboration Yu Maezawa (Univ.

Determining order of chiral phase transition in QCD from bootstrap

Raju Venugopalan Brookhaven National Laboratory

NGB and their parameters

Spontaneous Symmetry Breaking and Analogies to the Higgs-Mechanism

Phases of QCD Normal points and phase transitions; types of transitions; order parameters and susceptibilities; phase diagrams; how transitions are.

Phase diagram of a mixed spin-1 and spin-3/2 Ising ferrimagnet

Phase structure of graphene from Hybrid Monte-Carlo simulations

Neutron EDM with external electric field

Effect of equilibrium phase transition on multiphase transport in relativistic heavy ion collisions 喻梅凌华中师范大学粒子物理研究所 2019/2/24 第十届全国粒子物理大会桂林.

Pavel Buividovich (Regensburg University)

Presentation transcript:

The spectrum of 3d 3-states Potts model and universality Mario Gravina Univ. della Calabria & INFN collaborators: R. Falcone, R.Fiore, A. Papa SM & FT 2006, Bari

OUTLINE introduction 3d 3q Potts model numerical results conclusions 1) Svetitsky-Yaffe conjecture 2) Universal spectrum conjecture 3d 3q Potts model numerical results conclusions SM & FT 2006, Bari

1) SVETITSKY-YAFFE CONJECTURE Universality 1) SVETITSKY-YAFFE CONJECTURE SU(N) d+1 confinement-deconfinement Theories with different microscopic interactions but possessing the same underlying global symmetry have common long-distance behaviour Z(N) d order-disorder finite temperature what about 1st order phase transition? if transition is 2nd order SM & FT 2006, Bari

2) universal mass spectrum correlation function of local order parameter m1, m2, m3 … SM & FT 2006, Bari

universality conjecture Ising 3d theory 1 theory 2 lF4 3d SU(2) 4d theory 3 Agostini at al. 1997 Caselle at al. 1999 Fiore, Papa, Provero 2003 m1 m2 m3 m4 m1 m2 m3 m4 m4 m1 m4 m1 m4 m1 = m1 m2 m3 m4 = m3 m1 m3 m1 m3 m1 = = m2 m1 m2 m1 m2 m1 = = SM & FT 2006, Bari

We want to test these two aspects of universality 3d 3q POTTS MODEL h b bc hc L=48 1) 1st order transition L=70 2) 3d Ising point MONTE CARLO simulations CLUSTER ALGORITHM to reduce autocorrelation time SM & FT 2006, Bari

Potts model Z(3) breaking order-disorder PHASE TRANSITION SM & FT 2006, Bari

Phase diagram h=0 weak 1st order transition point Is the mass spectrum universal? 1st order critical lines 2nd order critical endpoint b Z(3) broken phase 2nd order critical ISING endpoint h=0 Does universality hold also for weak 1st order transition? comparison with SU(3) (work in progress) bc Falcone, Fiore, Gravina, Papa Z(3) symmetric phase h hc SM & FT 2006, Bari

h=0 – 1st order transition order parameter is the magnetization global spin SM & FT 2006, Bari

h=0 – 1st order transition at finite volume tunneling effects 0.5508 between symmetric and broken phase between degenerated broken minima 0.550565 complex M plane SM & FT 2006, Bari

h=0 – 1st order transition at finite volume To remove the tunneling between broken minima we apply a rotation only the real phase is present SM & FT 2006, Bari

Masses’ computation MASS CHANNELS by building suitable combinations of the local variable ZERO MOMENTUM PROJECTION by summing over the y and z slices VARIATIONAL METHOD to well separate masses contributions in the same channel (Kronfeld 1990) SM & FT 2006, Bari (Luscher, Wolff 1990)

0+ CHANNEL 2+ CHANNEL b=0.5508 h=0 m0+=0.1556(36) m2+=0.381(17) meff r SM & FT 2006, Bari

masses’ computation 1st order transition n=1/3 0+ channel 2+ channel 0.60 m0+(b1) m0+(b2) n=1/3 m0+ (b1)=0.1556 0.5508 b1=0.5508 0.550565 bt=0.550565 b 0+ channel 2+ channel in the scaling region b2 SM & FT 2006, Bari 0.550565 – 0.56 at least

mass ratio m2+ m0+ prediction of 4d SU(3) pure gauge theory at finite temperature screening mass ratio at finite temperature? b SM & FT 2006, Bari

2nd order Ising endpoint Karsch, Stickan (2000) h b bc hc z t Pc ISING pt h b bc hc temperature-like (bc,hc)= (0.54938(2),0.000775(10)) (tc,xc)= (0.37182(2),0.25733(2)) ordering field-like s@-r@-0.69 SM & FT 2006, Bari

2nd order endpoint 0.37233 0.37248 SM & FT 2006, Bari

local variable Correlation function order parameter SM & FT 2006, Bari

We separated contributions from two picks and calculated masses mass spectrum right-pick 0+ CHANNEL 2+ CHANNEL t=0.37248 x=0 We separated contributions from two picks and calculated masses m0+ m2+ 0.0749(63) 0.188(12) 3d ISING VALUE r SM & FT 2006, Bari

CONCLUSIONS We used 3d 3q Potts model as a theoretical laboratory to test some aspects of universality THANK YOU evidence found of universal spectrum 1) Ising point 2) weak 1st order tr. pt. prediction of SU(3) screening spectrum? left-pick? SM & FT 2006, Bari

SM & FT 2006, Bari

weak 1st order transition discontinous order parameter the jump is small Tt SM & FT 2006, Bari

Phase diagram h=0 weak 1st order transition point Mass spectrum is universal? 1st order critical lines 2nd order critical endpoint b Z(3) broken phase 2nd order critical ISING endpoint h=0 Universality also holds for weak 1st order transition? bc Z(3) symmetric phase h hc SM & FT 2006, Bari

Universality order parameter susceptibility correlation lenght Critical exponents Tc order parameter Tc susceptibility correlation lenght Tc SM & FT 2006, Bari