Multiparadigm modeling of dynamical crack propagation in silicon using a reactive force field

Markus J. Buehler; Adri C.T. Van Duin; William A. Goddard

doi:10.1103/PhysRevLett.96.095505

Multiparadigm modeling of dynamical crack propagation in silicon using a reactive force field

Markus J. Buehler
, Adri C.T. Van Duin
, William A. Goddard

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

Abstract

We report a study of dynamic cracking in a silicon single crystal in which the ReaxFF reactive force field is used for several thousand atoms near the crack tip, while more than 100000 atoms are described with a nonreactive force field. ReaxFF is completely derived from quantum mechanical calculations of simple silicon systems without any empirical parameters. Our results reproduce experimental observations of fracture in silicon including changes in crack dynamics for different crack orientations.

Original language	English
Article number	095505
Journal	Physical Review Letters
Volume	96
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.96.095505
Publication status	Published - 20 Mar 2006
Externally published	Yes

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title = "Multiparadigm modeling of dynamical crack propagation in silicon using a reactive force field",

abstract = "We report a study of dynamic cracking in a silicon single crystal in which the ReaxFF reactive force field is used for several thousand atoms near the crack tip, while more than 100000 atoms are described with a nonreactive force field. ReaxFF is completely derived from quantum mechanical calculations of simple silicon systems without any empirical parameters. Our results reproduce experimental observations of fracture in silicon including changes in crack dynamics for different crack orientations.",

author = "Buehler, \{Markus J.\} and \{Van Duin\}, \{Adri C.T.\} and Goddard, \{William A.\}",

year = "2006",

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AU - Buehler, Markus J.

AU - Van Duin, Adri C.T.

AU - Goddard, William A.

PY - 2006/3/20

Y1 - 2006/3/20

N2 - We report a study of dynamic cracking in a silicon single crystal in which the ReaxFF reactive force field is used for several thousand atoms near the crack tip, while more than 100000 atoms are described with a nonreactive force field. ReaxFF is completely derived from quantum mechanical calculations of simple silicon systems without any empirical parameters. Our results reproduce experimental observations of fracture in silicon including changes in crack dynamics for different crack orientations.

AB - We report a study of dynamic cracking in a silicon single crystal in which the ReaxFF reactive force field is used for several thousand atoms near the crack tip, while more than 100000 atoms are described with a nonreactive force field. ReaxFF is completely derived from quantum mechanical calculations of simple silicon systems without any empirical parameters. Our results reproduce experimental observations of fracture in silicon including changes in crack dynamics for different crack orientations.

UR - https://www.scopus.com/pages/publications/33644894526

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DO - 10.1103/PhysRevLett.96.095505

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JO - Physical Review Letters

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Multiparadigm modeling of dynamical crack propagation in silicon using a reactive force field

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