Presentation is loading. Please wait.

Presentation is loading. Please wait.

Universality and criticality of two-particle correlated evolution model S. Y. Yoon and Yup Kim Department of Physics, Kyung-Hee University Satellite Meeting.

Published byStuart Jacobs Modified over 8 years ago

Similar presentations

Presentation on theme: "Universality and criticality of two-particle correlated evolution model S. Y. Yoon and Yup Kim Department of Physics, Kyung-Hee University Satellite Meeting."— Presentation transcript:

1 Universality and criticality of two-particle correlated evolution model S. Y. Yoon and Yup Kim Department of Physics, Kyung-Hee University Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems

2 Background of this study  1D Roughening Transition (U. Alon, M.R. Evans, H. Hinrichsen and D. Mukamel, Phys. Rev. E. 57,4997 (1998)) Normal deposition : p Allow evaporation only at the edges of terraces : 1- p  = the density of vacancies on bottom layer Active state Absorbing state RoughSmooth pCpC Absorbing state Active state ( W ~ L  )  Monomer deposition/evaporation Model Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems or p 1-p Background of this study 1

3  Dimer deposition/evaporation Model (Modulo 2 conservation) ( H. Hinrichsen and G. Od ó r, Phys. Rev. Lett. 82,1205 (1999), J. D. Noh, H. Park, M den Nijs, Phys. Rev. Lett. 84, 3891 (2000) )  Directed Ising (DI) type Transition with Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Background of this study 2  Directed Percolation (DP) Class with r = 0, p = p C r p r = 1 r = 0 pCpC p=1/2 (  = 1/3) Smooth facet Rough facet r r : Digging probability of the particle inside the terraces

4  Two-particle correlated growth Model 1. r = 1 (Yup Kim,T.S. Kim, and Hyunggyu Park, Phys. Rev. E 66,046123 (2002)) groove  = 1 p = 1/2 groove  = 1 r p r : Digging probability of the particle inside the terraces r = 1 r = 0 pcpc  = 1/3 Smooth ?(rougheing) p 1-p p = q (q=1-p),  L → ∞ ) p  q,  L → ∞ ) Dynamical Scaling Law for Kinetic Surface Roughening Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Background of this study 3

5 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Background of this study 4 2. r = 0 1) Is there Roughening Transition for r = 0 ? 2) What is the Critical Phenomena at Critical Point ? Monomer Deposition - Evaporation Model  DP Dimer Deposition - Evaporation Model(Modulo-2 conservation)  DI Two-particle correlated growth Model (Modulo-2 conservation)  ? To answer the questions, we should first study the two particles correlated monolayer model !!

6 q Model ( Two-particle correlated monolayer Model ) i) Annihilation ii) Branching Most general model with modulo-2 conservation of particles. Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Model 5

7 Simulation results s(t) : number of survival samples at t Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results 5 L = 10 5, T=10 7

8

9 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results 6

10 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems  Dimer type (DI class) q i) Annihilation ii) Branching Simulation results 7

11 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems  Case 1 i) Annihilation ii) Branching Simulation results q 8

12 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results 9 L = 10 5, T=10 7

13 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results  Case 2 i) Annihilation ii) Branching q 10

14 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results 11 L = 10 5, T=10 7

15 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems  Two-particle correlated type growth model Simulation results (Preliminary results) 12 L = 32, 64, 128, 256, 512

16 Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Simulation results (Preliminary results) 13 L = 2 9 At p c =0.1044,

17 Conclusion Satellite Meeting STATPHY 22 in Seoul, Korea Nonequilibrium Statistical Physics of Complex Systems Conclusion 1414 1. Critical Phenomena at Critical Point Monomer Deposition - Evaporation Model  DP Dimer Deposition - Evaporation Model (Modulo 2 conservation)  DI Two-particle correlated growth Model (Modulo 2 conservation)  DP? Class  / ||  /  z DI0.2850.51.75 DP0.1590.2521.58 Two-particle Model0.159  0.25 PCPD~0.20

Download ppt "Universality and criticality of two-particle correlated evolution model S. Y. Yoon and Yup Kim Department of Physics, Kyung-Hee University Satellite Meeting."

Similar presentations

Progress and Plans on Magnetic Reconnection for CMSO For NSF Site-Visit for CMSO May1-2, 2005 1. Experimental progress [M. Yamada] -Findings on two-fluid.

Progress and Plans on Magnetic Reconnection for CMSO For NSF Site-Visit for CMSO May1-2, Experimental progress [M. Yamada] -Findings on two-fluid.
Establishment of park and green areas for the residential development project Sang Don LEE and Sung Ok Kim Department of Environmental Science and Engineering,

Establishment of park and green areas for the residential development project Sang Don LEE and Sung Ok Kim Department of Environmental Science and Engineering,
(Applied Physics Letters, 2004 (in press))

(Applied Physics Letters, 2004 (in press))
Equilibrium Restricted Solid-on-Solid Models with Constraints on the Distribution of Surface Heights 허희범, 윤수연, 김엽 경희대학교.

Equilibrium Restricted Solid-on-Solid Models with Constraints on the Distribution of Surface Heights 허희범, 윤수연, 김엽 경희대학교.
Finite-size scaling in complex networks Meesoon Ha (KIAS) in collaboration with Hyunsuk Hong (Chonbuk Nat’l Univ.) and Hyunggyu Park (KIAS) Korea Institute.

Finite-size scaling in complex networks Meesoon Ha (KIAS) in collaboration with Hyunsuk Hong (Chonbuk Nat’l Univ.) and Hyunggyu Park (KIAS) Korea Institute.
J Cuevas, C Katerji, B Sánchez-Rey and A Álvarez Non Linear Physics Group of the University of Seville Department of Applied Physics I February 21st, 2003.

J Cuevas, C Katerji, B Sánchez-Rey and A Álvarez Non Linear Physics Group of the University of Seville Department of Applied Physics I February 21st, 2003.
Stochastic population oscillations in spatial predator-prey models CMDS-12, Kolkata, 24 February 2011 Uwe C. Täuber, Department of Physics, Virginia Tech.

Stochastic population oscillations in spatial predator-prey models CMDS-12, Kolkata, 24 February 2011 Uwe C. Täuber, Department of Physics, Virginia Tech.
Establishment of stochastic discrete models for continuum Langevin equation of surface growths Yup Kim and Sooyeon Yoon Kyung-Hee Univ. Dept. of Physics.

Establishment of stochastic discrete models for continuum Langevin equation of surface growths Yup Kim and Sooyeon Yoon Kyung-Hee Univ. Dept. of Physics.
Kinetics of ordering and metastable phase of alloys Jun Ni Department of Physics Tsinghua University.

Kinetics of ordering and metastable phase of alloys Jun Ni Department of Physics Tsinghua University.
Fractality vs self-similarity in scale-free networks The 2 nd KIAS Conference on Stat. Phys., 07/03-06/06 Jin S. Kim, K.-I. Goh, G. Salvi, E. Oh and D.

Fractality vs self-similarity in scale-free networks The 2 nd KIAS Conference on Stat. Phys., 07/03-06/06 Jin S. Kim, K.-I. Goh, G. Salvi, E. Oh and D.
Density large-deviations of nonconserving driven models STATPHYS 25 Conference, SNU, Seoul, Korea, July 2013 Or Cohen and David Mukamel.

Density large-deviations of nonconserving driven models STATPHYS 25 Conference, SNU, Seoul, Korea, July 2013 Or Cohen and David Mukamel.
Correlated Electron Systems: Challenges and Future Gabriel Kotliar Rutgers University.

Correlated Electron Systems: Challenges and Future Gabriel Kotliar Rutgers University.
Be Coating on Spherical Surface for NIF Target Development H. Xu, J. Wall, and A. Nikroo General Atomics 3550 General Atomics Court San Diego, CA 92121.

Be Coating on Spherical Surface for NIF Target Development H. Xu, J. Wall, and A. Nikroo General Atomics 3550 General Atomics Court San Diego, CA
Physical Mechanism Underlying Opinion Spreading

Physical Mechanism Underlying Opinion Spreading
Intrinsic Localized modes: A mechanism for the migration of defects Jesús Cuevas Maraver Nonlinear Physics Group Universidad de Sevilla.

Intrinsic Localized modes: A mechanism for the migration of defects Jesús Cuevas Maraver Nonlinear Physics Group Universidad de Sevilla.
A theoretical suggestion to make real clean material surface Sooyeon Yoon and Yup Kim Kyung Hee Univ. Dept. of Phys. 2004 년 한국물리학회 가을 학술 논문 발표회.

A theoretical suggestion to make real clean material surface Sooyeon Yoon and Yup Kim Kyung Hee Univ. Dept. of Phys 년 한국물리학회 가을 학술 논문 발표회.
Traffic jams and ordering far from thermal equilibrium David Mukamel.

Traffic jams and ordering far from thermal equilibrium David Mukamel.
Random Field Ising Model on Small-World Networks Seung Woo Son, Hawoong Jeong 1 and Jae Dong Noh 2 1 Dept. Physics, Korea Advanced Institute Science and.

Random Field Ising Model on Small-World Networks Seung Woo Son, Hawoong Jeong 1 and Jae Dong Noh 2 1 Dept. Physics, Korea Advanced Institute Science and.
Chapter 33 – SCATTERING FROM FRACTAL SYSTEMS 33:1. MASS FRACTAL 33:2. SURFACE FRACTAL 33:3. FRACTAL POROD EXPONENTS.

Chapter 33 – SCATTERING FROM FRACTAL SYSTEMS 33:1. MASS FRACTAL 33:2. SURFACE FRACTAL 33:3. FRACTAL POROD EXPONENTS.
Localization of phonons in chains of trapped ions Alejandro Bermúdez, Miguel Ángel Martín-Delgado and Diego Porras Department of Theoretical Physics Universidad.

Localization of phonons in chains of trapped ions Alejandro Bermúdez, Miguel Ángel Martín-Delgado and Diego Porras Department of Theoretical Physics Universidad.

Similar presentations

Ads by Google