Re-equilibration after quenches in athermal martensites: Conversion delays for vapor-to-liquid domain-wall phases

N. Shankaraiah; K. P.N. Murthy; T. Lookman; S. R. Shenoy

doi:10.1103/PhysRevB.91.214108

Re-equilibration after quenches in athermal martensites: Conversion delays for vapor-to-liquid domain-wall phases

N. Shankaraiah
, K. P.N. Murthy
, T. Lookman
, S. R. Shenoy

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Entropy barriers and aging states appear in martensitic structural-transition models, slowly re-equilibrating after temperature quenches, under Monte Carlo dynamics. Concepts from protein folding and aging harmonic oscillators turn out to be useful in understanding these nonequilibrium evolutions. We show how the athermal, nonactivated delay time for seeded parent-phase austenite to convert to product-phase martensite arises from an identified entropy barrier in Fourier space. In an aging state of low Monte Carlo acceptances, the strain structure factor makes constant-energy searches for rare pathways to enter a Brillouin zone "golf hole" enclosing negative-energy states, and to suddenly release entropically trapped stresses. In this context, a stress-dependent effective temperature can be defined, that re-equilibrates to the quenched bath temperature.

Original language	English
Article number	214108
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	91
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevB.91.214108
State	Published - 19 Jun 2015
Externally published	Yes

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10.1103/PhysRevB.91.214108

Cite this

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title = "Re-equilibration after quenches in athermal martensites: Conversion delays for vapor-to-liquid domain-wall phases",

abstract = "Entropy barriers and aging states appear in martensitic structural-transition models, slowly re-equilibrating after temperature quenches, under Monte Carlo dynamics. Concepts from protein folding and aging harmonic oscillators turn out to be useful in understanding these nonequilibrium evolutions. We show how the athermal, nonactivated delay time for seeded parent-phase austenite to convert to product-phase martensite arises from an identified entropy barrier in Fourier space. In an aging state of low Monte Carlo acceptances, the strain structure factor makes constant-energy searches for rare pathways to enter a Brillouin zone {"}golf hole{"} enclosing negative-energy states, and to suddenly release entropically trapped stresses. In this context, a stress-dependent effective temperature can be defined, that re-equilibrates to the quenched bath temperature.",

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doi = "10.1103/PhysRevB.91.214108",

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T2 - Conversion delays for vapor-to-liquid domain-wall phases

AU - Shankaraiah, N.

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AU - Lookman, T.

AU - Shenoy, S. R.

PY - 2015/6/19

Y1 - 2015/6/19

N2 - Entropy barriers and aging states appear in martensitic structural-transition models, slowly re-equilibrating after temperature quenches, under Monte Carlo dynamics. Concepts from protein folding and aging harmonic oscillators turn out to be useful in understanding these nonequilibrium evolutions. We show how the athermal, nonactivated delay time for seeded parent-phase austenite to convert to product-phase martensite arises from an identified entropy barrier in Fourier space. In an aging state of low Monte Carlo acceptances, the strain structure factor makes constant-energy searches for rare pathways to enter a Brillouin zone "golf hole" enclosing negative-energy states, and to suddenly release entropically trapped stresses. In this context, a stress-dependent effective temperature can be defined, that re-equilibrates to the quenched bath temperature.

AB - Entropy barriers and aging states appear in martensitic structural-transition models, slowly re-equilibrating after temperature quenches, under Monte Carlo dynamics. Concepts from protein folding and aging harmonic oscillators turn out to be useful in understanding these nonequilibrium evolutions. We show how the athermal, nonactivated delay time for seeded parent-phase austenite to convert to product-phase martensite arises from an identified entropy barrier in Fourier space. In an aging state of low Monte Carlo acceptances, the strain structure factor makes constant-energy searches for rare pathways to enter a Brillouin zone "golf hole" enclosing negative-energy states, and to suddenly release entropically trapped stresses. In this context, a stress-dependent effective temperature can be defined, that re-equilibrates to the quenched bath temperature.

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U2 - 10.1103/PhysRevB.91.214108

DO - 10.1103/PhysRevB.91.214108

M3 - 文章

AN - SCOPUS:84934342836

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JO - Physical Review B - Condensed Matter and Materials Physics

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IS - 21

M1 - 214108

ER -

Re-equilibration after quenches in athermal martensites: Conversion delays for vapor-to-liquid domain-wall phases

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