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Des camarades chéris, qui notre monde Ensoleillaient de leur société Ne dis pas, angoissé, “ils ne sont plus” Dis, bénissant, “ils existaient.” О милых спутниках, которые наш свет Своим сопутствием для нас животворили, Не говори с тоской: их нет, Но с благодарностию: были. В. А. Жуковский «Воспоминание» (1827) Day in memory of Miguel Ocio on Monday, October 3rd 2005 On the glassy behavior of vortex systems V. Vinokur

Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

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Page 1: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Des camarades chéris, qui notre monde

Ensoleillaient de leur société

Ne dis pas, angoissé, “ils ne sont plus”

Dis, bénissant, “ils existaient.”

О милых спутниках, которые наш свет

Своим сопутствием для нас животворили,

Не говори с тоской: их нет,

Но с благодарностию: были.

В. А. Жуковский «Воспоминание» (1827)

Day in memory of Miguel Ocio on Monday, October 3rd 2005

On the glassy behavior of vortex systems

V. Vinokur

Page 2: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Generic I-V characteristic of the driven vortex lattice

( )exp

p pE f Tv

T f

µ −

Page 3: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

How can it work?

How can our object choose this optimal hop?

optimal hop

Retarded segments

Should control dynamics

But… for rare fluctuattions logbarrierE L�

(at best)

Energy gain due to external force L�

( )τΨ

( )τΨ ?

Page 4: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

We are interested in the distribution density

Ψ(τ)Ψ(τ)Ψ(τ)Ψ(τ) of the departure times τ. To find it we will determine first the probability distribution

W(E) of barriers E controlling string dynamics

Consider a change in the configuration of the

elastic string in the random field:

We call it departure from the initial position 1.

1 2

FWe replace each segment

of the length Lcby a single effective impurity:

…and view the

departure from the

Impurity as a spin

flip

cL

cL

Page 5: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

cL

optL L<

Page 6: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

U

It costs energy U to flip

(depart from) a site

The barriers controlling the flips

(hops) to the neighboring site

fluctuate about Uc..

Departure of the

segment is controlled

by

U(1)=max{U1,U2,U3}=U2

cL

Consider a segment

of three units: {1,2,3}

U3

U2

U11

3

2

Page 7: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Renormalization procedureassign to each block

its largest barrier …

U2

U1

(1)

1U

(1)

2U

(1)

3U

Generally we consider blocks

consisting of m units

replace each block by a new unit

with these new barriers…

…and repeat the procedure…

Page 8: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law
Page 9: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law
Page 10: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Global distribution:

Ln : the density of pinned segments

of the length L

1/Ln Lν� 1 / 2fd dν = + >

Page 11: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

The mean motion is controlled by the largest departure/waiting time

corresponding to the hop of the optimal segment Lopt(F).

Page 12: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Depinning temperature:dpT

: exp( / )dp c dpT T J T T> ∝ −

1α =Dynamics becomes marginal:

2v f µ+∝H

T

Melting

line

Depinning line

Page 13: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

H

T

Melting

line

Irreversibility line: to the left of this line replica

symmetry breaking occurs

Dingping Li, B. Rosenstein (2005)

Page 14: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law
Page 15: Омилыхспутниках, которыенашсвет ... · Conclusions: The low-temperature dynamics of driven elastic manifolds in random environment is governed by a power-law

Conclusions:

The low-temperature dynamics of driven

elastic manifolds in random environment is governed by a

power-law distribution of hopping times.

It looks like the slow dynamics of elastic systems controlled by the extreme value

statistics of energy barriers and the replica symmetry breaking description

of disorder within the field-theoretical Ginzburg-Landau approach are in fact

the two facets of the same phenomenon.