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Crackling Noise JPS, Shekhawat, Papanikolaou, Bierbaum, …, Dahmen, Myers, Durin, Zapperi Jan March Oct Dec Month Magnitude 7 8 Hiroshimas Earthquakes:

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Presentation on theme: "Crackling Noise JPS, Shekhawat, Papanikolaou, Bierbaum, …, Dahmen, Myers, Durin, Zapperi Jan March Oct Dec Month Magnitude 7 8 Hiroshimas Earthquakes:"— Presentation transcript:

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2 Crackling Noise JPS, Shekhawat, Papanikolaou, Bierbaum, …, Dahmen, Myers, Durin, Zapperi Jan March Oct Dec Month Magnitude 7 8 Hiroshimas Earthquakes: 1995 20000 200000 Gutenberg-Richter Law 4 5 7 8 Hiroshima Bomb Energies 2 20 200 2000 20000 200000 Magnitude Number 1 10 100 1000 10000 Sharp events of many sizes Power laws, critical exponents Universality: different systems same behavior. Also allows theory to fit experiment Bond vs. Site Percolation

3 Self-Similarity: Scale Invariance Looks the same at different magnifications Avalanche Model at R c Enlarge lower right corner: looks like another snapshot New scale invariance ‘symmetry’ near phase transition: same under change of ruler Renormalization group Universal power laws Volume S~L df, Probability P(S)~S -  Universal scaling functions V(t|S,T)~T df/z-1 V (t/T) P(S|f)~ S -  P (S/f 1/  ) Coarse Graining

4 The Renormalization Group Coarse Graining in the Space of All Systems Theory describes experiment if both coarsen to same S*. Ken Wilson’s amazing abstraction Space of all possible systems (experiment or theory) Coarse laws give new point in system space. Many coarsenings? Stops changing at S* Self-Similarity: S* similar to itself under coarsening Universality: Many different systems go to same S* Dahmen, Myers

5 Universal Scaling Functions The average shape of avalanches of duration T Time t V(t) [nV] Entire functional form universal Coarse grain time -> time/b, V -> V/b x ; V(t|T,k) = b -x V(t/b|T/b,  b w ) =T -x V(t/T|1,  T w ) =T -x V ( t/T,  T w ) Scaling plot: T x V(t) vs. t/T  t/T 0 1 0 1 V(t/T|  ) / V max ExperimentTheory      Papanikolaou, Durin, Bohn, Sommer, Zapperi Avalanche shape Average shape

6 Universal Multivariable Scaling Heights, widths, durations, … 10 -10 10 -1 10 6 10 0 Area Fraction Avalanche Size Width-Spanning Avalanches w Joint probability that avalanche has size S, width w, height h, duration T … Scale invariance implies N- variable functions will be a power law times a universal function of N-1 scaling variables Powerful tool for answering experimentally important questions (avalanches in windows…) Yanjiun Chen, Papanikolaou, Durin, Zapperi

7 Crackling Plasticity Mean-field theory for avalanches Dahmen, Grier (not me): Yield stress as critical point! Plasticity avalanches = critical fluctuations. Work hardening as self- organization! Papanikolaou, Zapperi, …: Creep leads to avalanche oscillator, periodic approaches to criticality, ‘integrated’ exponents

8 Morphology of Plasticity Dislocations organize into cellular structures Our models yields self-similar, fractal cell structures Are the fractal dynamics related to the fractal structures? 1  m Copper Aluminum Bierbaum, Papanikolaou, …

9 Ramified Mean-Field theories Spatial dynamics must depend on system Mean field theories describe: Short range models in high dimensions (connected, fractal avalanches) Models with power-law interactions (disconnected avalanches dispersed throughout system) elastic dipole, magnetic dipole, … Front propagation models (anisotropic, self-affine fronts and avalanches) All the plasticity models and most experiments (avalanche sizes & durations likely independent of morphology) Can we understand the dependence of the spatial morphology on the anisotropy of the long-range interaction?

10 Crackling Fracture Power-law fracture precursors Fuse model for fracture Microfractures happen in bone, seashells: toughens (Black) clusters of weak bonds break early, with a power law size distribution. But larger is weaker: for infinite system, fracture stress goes to zero, so no precursors! Precursors are a finite size effect: finite size criticality Shekhawat, Zapperi

11 Crackling Fracture Shekhawat: Power-law fracture precursors Percolation controls scaling New relevant perturbation  Inverse disorder  Large disorder: ‘avalanches’ sizes S=1 Small disorder: one big avalanche Universal crossover P(S) ~ S -  F(  L , S L -1/ , U L  ) Note: Analysis includes first correction to scaling U, with universal exponent  Second moment of avalanche sizes Shekhawat, Zapperi

12 Conclusions Remarkable emergent symmetry: scale invariance. Assuming quantities rescale by factors of b x : Functions of one variable take on power law forms with universal critical exponents. Full strength comes with several variables: size S, duration T, temporal shape V(t), height H, width W, spectra P(  ), correlation function C(r), demagnetizing field , system size L, inverse disorder , leading irrelevant field U, analytic corrections, crossovers… These give universal scaling functions. Predictive far beyond critical exponents. Grappling with universal scaling functions is intellectually challenging and rewarding, while physically intuitive and insightful, even without  -expansions and field theories.

13 Climb & Glide 2D Emergent scale invariance Self-similar in space; correlation functions Real-space rescaling Power law dependence of mean misorientations Glide Only Climb & Glide 3D Scaling theory! DOE BES

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