Building up a simple cubic lattice: Difference between revisions

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• Consider:

1. a cubic simulation box whose sides are of length ${\displaystyle \left.L\right.}$
2. a number of lattice positions, ${\displaystyle \left.M\right.}$ given by ${\displaystyle \left.M=m^{3}\right.}$ ; with ${\displaystyle m}$ being a positive integer

• The ${\displaystyle \left.M\right.}$ positions are those given by:

${\displaystyle \left\{{\begin{array}{ll}x=i\times (\delta l)&;i=0,1,\cdots ,m-1\\y=j\times (\delta l)&;j=0,1,\cdots ,m-1\\z=k\times (\delta l)&;k=0,1,\cdots ,m-1\end{array}}\right.}$

where ${\displaystyle \left.\delta l=L/m\right.}$

Atomic position(s) on a cubic cell[edit]

• Number of atoms per cell: 1
• Coordinates:

Atom 1: ${\displaystyle \left(x_{1},y_{1},z_{1}\right)=\left(0,0,0\right)}$

Cell dimensions:

• ${\displaystyle a=b=c}$

• ${\displaystyle \alpha =\beta =\gamma =90^{0}}$