Deriving electrical conduction in 2d crystal

steenreem · Jun 27, 2009

Hey.

I want to derive the conductivity of graphene.
I'm looking for a formula of the sort:

J = \frac{e}{\hbar} n \frac{dE}{dk} D(E) \Delta E
where
\frac{1}{\hbar} \frac{dE}{dk}
is the electron velocity,
D(E) = \frac{dN}{dE}
is the density of states,
\Delta E
might be the applied voltage.
n
is the free electron density,
J
is the current density and
e is the electron charge.

Thanks,
Remy.

kanato · Jun 27, 2009

Have you looked at the Boltzmann semi-classical theory of transport?

steenreem · Jun 28, 2009

Well I just did but it's a but too much for me. I just want a simple formula for 2D crystals like graphene.

kanato · Jun 29, 2009

Well, transport is a difficult topic. You could try working out the equivalent of the Drude formula for 2D, which shouldn't be hard, but you are going to need a value for the mean free path or time, which is not trivial to compute. And it may not work well for graphene.

steenreem · Jun 29, 2009

Okay thanks. I'll try working it out on my own now.

Deriving electrical conduction in 2d crystal

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