Author Topic: Skipping variation of potential in X, Y direction  (Read 2656 times)

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Offline Arya

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Skipping variation of potential in X, Y direction
« on: February 18, 2014, 03:34 »
Hi,

Greetings !

In the NEGF formalism (what I understood by reading some papers from S. Datta) we use a eigenspace representation for Hamiltonian in X, Y direction and a real space Hamiltonian representation in transport direction.
This means we need the variation of potential (U) only in transport direction since XY direction are taken care by eigenspace representation.

If my understanding is correct do we have option of not calculating potential variation in XY direction, thus speeding up the calculations.

Of course others might want to see a 3D view of potential but in case one doesn't need; can we skip the X,Y direction and use just the Z direction for NEGF calculations.

Thanks,
-Arya

Offline kstokbro

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Re: Skipping variation of potential in X, Y direction
« Reply #1 on: February 18, 2014, 07:20 »
you can use periodic boundary conditions in the x,y directions, in this way you can have a very small cell in these directions and significantly speed up the calculation. However, you need to include k-point sampling then in x, y, since even if you potential is periodic the wave functions are not, they are Bloch waves, check Blochs theorem.