Presentation is loading. Please wait.

Presentation is loading. Please wait.

T. Odagaki Department of Physics, Kyushu University T. Yoshidome, A. Koyama, A. Yoshimori and J. Matsui Japan-France Seminar, Paris September 30, 2005.

Published byMyles Ryan Modified over 9 years ago

Similar presentations

Presentation on theme: "T. Odagaki Department of Physics, Kyushu University T. Yoshidome, A. Koyama, A. Yoshimori and J. Matsui Japan-France Seminar, Paris September 30, 2005."— Presentation transcript:

1 T. Odagaki Department of Physics, Kyushu University T. Yoshidome, A. Koyama, A. Yoshimori and J. Matsui Japan-France Seminar, Paris September 30, 2005

2 Glass transition singularities Dynamic transition Thermodynamic transition Phenomenological understanding Free energy landscape

3 Phenomenological understanding : Heat capacity T. Tao &T.O(PRE 2002),T.O et al (JCP 2002),T. Tao et al (JCP2005) Energy of basin a Probability of being in basin a at t : Quenched : Annealed a

4 ☆ Annealed to quenched transition ☆ Cooling rate dependence Annealed-to-quenched transition and cooling rate dependence 20 basins:Einstein oscillators slow fast T. Tao, T. O and A. Yoshimori: JCP 122, 044505 (2005)

5 1. Free Energy Landscape, CRR and SRR 2. Density Functional Theory and FEL 3. Principal Component Analysis and FEL 4 . Unifying Concept for Glass Transition Outline

6 Landau theory for phase transitions State realized in the presence of a suitable constraint

7 Free energy landscape picture State realized in the presence of a suitable constraint Configurational space

8 Definition of the free energy landscape Many basins appear below some temperature Support fast and slow relaxations Quasi-thermodynamic transition Potential energy landscape does not have these properties.

9 Basic Concept for the FEL Free energy landscape Configurational Partition Function for a constrained system Choice for the gate function ① Within topologically identical Voronoi polyhedra: mathematically well-defined, but hard to calculate ② Gaussian fields: practical

10 Simultaneously and cooperatively rearranging regions SRR: Difference between two adjacent basins CRR: Atoms involved in the transition state

11 Density functional theory Glass formation Y. Singh et al PRL(1985), C. Kaur & S. P.Das PRL(2001) as a function of Free energy landscape

12 : Direct correlation function Percus-Yevick approximation Ramakrishnan-Yussouff free energy functional

13 Forced relaxation in FCC

14 basin1basin2 No of atoms in the core : 32 String moti on and CRR

15 No of atoms in the core : 18 basin 1 basin 2 String moti on and CRR

16 basin1 basin2 No of atoms in the core : 10 String motion and CRR

17 Density dependence of the size of CRR # of atoms in the core below which no relaxation occurs

18 Principal component analysis for molecular simulations Representative point in configurational space.

19 Mode projection onto 3D-real space FastSlow Total dynamics Slow dynamics Fast dynamics 600 K

20 FEL in Principal component analysis FEL : ---The observed rate of y l in a simulation. Probability distribution for y l

21 Dynamics on FEL y l / λ l 1/2 400 K (>T g ) 200 K (<T g ) 2D contour maps of FEL’s. y l+1 / λ l+1 1/2 y l / λ l 1/2

22 Waiting time distribution for slow relaxation Prob. of activation free energy Waiting time distribution :Size of CRR by Adam and Gibbs SRR CRR

23 Unifying concept Characteristic Temperature Equation

24 V B Kokshenev & P D Borges, JCP 122, 114510 (2005)

25 Unified understanding by the FEL -Crystallization T Liquid Crystal

26 T Super cooled Liquid slow relaxation fast relaxation Glass Ideal Glass Trapped in a basin Liquid Unified understanding by the FEL -Vitrification

27 Conclusion Phenomenological understanding Construction of free energy landscape ○ Dynamics in the FEL Separation of slow dynamics ○Dynamics: Gaussian to non-Gaussian transition ○Thermodynamics: Annealed to quenched transition ○ Density functional theory ○ Clear definition of CRR and SRR ○ Principal component analysis

Download ppt "T. Odagaki Department of Physics, Kyushu University T. Yoshidome, A. Koyama, A. Yoshimori and J. Matsui Japan-France Seminar, Paris September 30, 2005."

Similar presentations

Alexei E. Likhtman, Sathish K. Sukumuran, Jorge Ramirez

Alexei E. Likhtman, Sathish K. Sukumuran, Jorge Ramirez
Review Of Statistical Mechanics

Review Of Statistical Mechanics
Transfer FAS UAS SAINT-PETERSBURG STATE UNIVERSITY COMPUTATIONAL PHYSICS Introduction Physical basis Molecular dynamics Temperature and thermostat Numerical.

Transfer FAS UAS SAINT-PETERSBURG STATE UNIVERSITY COMPUTATIONAL PHYSICS Introduction Physical basis Molecular dynamics Temperature and thermostat Numerical.
Heat flow in chains driven by noise Hans Fogedby Aarhus University and Niels Bohr Institute (collaboration with Alberto Imparato, Aarhus)

Heat flow in chains driven by noise Hans Fogedby Aarhus University and Niels Bohr Institute (collaboration with Alberto Imparato, Aarhus)
Bare Surface Tension and Surface Fluctuations of Clusters with Long–Range Interaction D.I. Zhukhovitskii Joint Institute for High Temperatures, RAS.

Bare Surface Tension and Surface Fluctuations of Clusters with Long–Range Interaction D.I. Zhukhovitskii Joint Institute for High Temperatures, RAS.
Konstanz, 14-18 September 2002 Potential Energy Landscape Equation of State Emilia La Nave, Francesco Sciortino, Piero Tartaglia (Roma) Stefano Mossa (Boston/Paris)

Konstanz, September 2002 Potential Energy Landscape Equation of State Emilia La Nave, Francesco Sciortino, Piero Tartaglia (Roma) Stefano Mossa (Boston/Paris)
Aging in short-ranged attractive colloids G. Foffi INFM, Universita’ “La Sapienza”, Roma.

Aging in short-ranged attractive colloids G. Foffi INFM, Universita’ “La Sapienza”, Roma.
1 Relaxation and Transport in Glass-Forming Liquids Motivation (longish) Democratic motion Conclusions G. Appignanesi, J.A. Rodríguez Fries, R.A. Montani.

1 Relaxation and Transport in Glass-Forming Liquids Motivation (longish) Democratic motion Conclusions G. Appignanesi, J.A. Rodríguez Fries, R.A. Montani.
Free volume theory (Entropic) Adam & Gibbs theory Mode-coupling theory (old and new) theories on the GLASS TRANSITION a) “Old” theories (but still being.

Free volume theory (Entropic) Adam & Gibbs theory Mode-coupling theory (old and new) theories on the GLASS TRANSITION a) “Old” theories (but still being.
MSEG 803 Equilibria in Material Systems 10: Heat Capacity of Materials Prof. Juejun (JJ) Hu

MSEG 803 Equilibria in Material Systems 10: Heat Capacity of Materials Prof. Juejun (JJ) Hu
The Marie Curie Research/Training Network on Dynamical Arrest Workshop Le Mans, November 19-22, 2005 Slow dynamics in the presence of attractive patchy.

The Marie Curie Research/Training Network on Dynamical Arrest Workshop Le Mans, November 19-22, 2005 Slow dynamics in the presence of attractive patchy.
Examining the crossover between the hadronic and partonic phases in QCD and the structure of sQGP Xu Mingmei( 许明梅 ), Yu Meiling( 喻梅凌 ), Liu Lianshou( 刘连寿.

Examining the crossover between the hadronic and partonic phases in QCD and the structure of sQGP Xu Mingmei( 许明梅 ), Yu Meiling( 喻梅凌 ), Liu Lianshou( 刘连寿.
Konstanz, 14-18 September 2002 Potential Energy Landscape Equation of State Emilia La Nave, Francesco Sciortino, Piero Tartaglia (Roma) Stefano Mossa (Boston/Paris)

Konstanz, September 2002 Potential Energy Landscape Equation of State Emilia La Nave, Francesco Sciortino, Piero Tartaglia (Roma) Stefano Mossa (Boston/Paris)
Free Energy Landscape -Evolution of the TDM- Takashi Odagaki Kyushu University IV WNEP Round Table Discussion September 22, 2006 Trapping diffusion Model.

Free Energy Landscape -Evolution of the TDM- Takashi Odagaki Kyushu University IV WNEP Round Table Discussion September 22, 2006 Trapping diffusion Model.
Structure of Amorphous Materials

Structure of Amorphous Materials
Thermal properties from first principles with the use of the Free Energy Surface concept Dr inż. Paweł Scharoch Institute of Physics, Wroclaw University.

Thermal properties from first principles with the use of the Free Energy Surface concept Dr inż. Paweł Scharoch Institute of Physics, Wroclaw University.
Orleans July 2004 Potential Energy Landscape in Models for Liquids Networks in physics and biology In collaboration with E. La Nave, A. Moreno, I. Saika-Voivod,

Orleans July 2004 Potential Energy Landscape in Models for Liquids Networks in physics and biology In collaboration with E. La Nave, A. Moreno, I. Saika-Voivod,
Monte Carlo Simulation of Ising Model and Phase Transition Studies

Monte Carlo Simulation of Ising Model and Phase Transition Studies
Atomistic Mechanism for Grain Boundary Migration: Molecular Dynamics Studies Hao Zhang a, David J. Srolovitz a, Jack F. Douglas b, and James A. Warren.

Atomistic Mechanism for Grain Boundary Migration: Molecular Dynamics Studies Hao Zhang a, David J. Srolovitz a, Jack F. Douglas b, and James A. Warren.
STATISTICAL PROPERTIES OF THE LANDSCAPE OF A SIMPLE STRONG LIQUID MODEL …. AND SOMETHING ELSE. E. La Nave, P. Tartaglia, E. Zaccarelli (Roma ) I. Saika-Voivod.

STATISTICAL PROPERTIES OF THE LANDSCAPE OF A SIMPLE STRONG LIQUID MODEL …. AND SOMETHING ELSE. E. La Nave, P. Tartaglia, E. Zaccarelli (Roma ) I. Saika-Voivod.

Similar presentations

Ads by Google