Post on 19-Jan-2016
description
Simulation methodologySimulation methodology
• Embedded-atom method potential for the Cu-Ag system (Mishin at al.)
• Simulation block is constructed by joining together Cu and Ag single crystals with the same orientation. The conic tip was obtained by removing all atoms of the upper crystal (Ag) outside of the cone given geometry (radius of the contact area is ~15A). Size of the block: 77 x 85 x 71 A (total atoms: 27,198; dynamic atoms: 4,254 Ag-tip, 10,560 Cu-substrate) with periodic boundary conditions in the substrate plane (XZ-plane).
• Relaxation at 10K during 0.1 ns
• Slip studies: V=1 m/s, sim. time 2 ns; V=5 m/s, sim. time 1 ns. All runs are at 10K.
• Stress tensor calculated using the virial expression for the dynamics atoms of the substrate.
• Interface structure examined by the common-neighbor analysis
• No loading force applied
X (1 0 -1)
Z (1 -2 1)
Y (1 1 1)
Cu (dynamic)
Ag (dynamic)
Ag (fixed)
Cu (fixed)
V
Actual tip displacements vs. imposed tip displacement
Actual tip displacements are calculated as the displacement of the “center of mass” of atoms of the bottom layer of the tip
Slip?
Stresses in the tip
Stresses are calculated using the standard virial expression over all dynamic atoms of the tip
Shear components Normal components
Displacements of the tip and shear stresses
“0”“1”
“0”“1”
A
B
C
Top layer ofthe substrate
Geometric registry at the tip (Ag) – substrate (Cu) interface
X (1 0 -1)
Z (1 -2 1)
Y (1 1 1)
FCC stackingsequence in Ag
Cu
Ag
XY-projection
HCP registry
Red triangles shoe groups of atoms of the substrate,which are in HCP registry (BC) with the atoms of the tip.Only the atoms of the top layer of the substrate (golden)
and B-layer of the tip (blue) are shown.
Atomic registry at the tip (Ag) – substrate (Cu) interface
FCC registry
Black triangles shoe groups of atoms of the substrate,which are in FCC registry (ABC) with the atoms of the tip.Only the atoms of the top layer of the substrate (golden)
and A-layer of the tip (blue) are shown.
Contact area
X (1 0 -1)
Z (1 -2 1)
Atomic registry at the tip (Ag) – substrate (Cu) interface. Contd.
FCC
FCC FCC
HCP
HCP HCP
Only the top layer of the substrate (golden atoms) is shown.
X (1 0 -1)
Z (1 -2 1)
Atomic rows of the substratewhich are not in
registry with the tip
Lattices mismatchdislocations
We do not need to create them.They pre-exist due to lattice
mismatch between Ag and Cu.
Atomic registry at the tip (Ag) – substrate (Cu) interface.Common-neighbors analysis
http://www.physics.gmu.edu/~vivanov/afm/cuag/movies/agcu_1ms_2ns_10K_noforce.mpeg
HCP
“0”
“1”