the number of electron for resistivity calculations
Posted: Thu Jun 27, 2019 1:44 pm
Hi,
I'm using EPW to calculate the resistivity of metals. Following the tutorial of School 2018, I've reproduced the resistivity of lead.
But there is a question about the number of electrons included in the Ziman's formula. As the tutorial said, "n is the number of electron per unit volume and n(?,T) is the Bose-Einstein distribution. Usually, this means the number of electrons that contribute to the mobility and so it is typically 8(full shell) but not always.".
So for example, the number of electron per unit cell of sodium is one, isn't it? If so, the calculated resistivity (multiplied by eight) of sodium is about two times larger than the experimental value.
I'm so confused, could anyone tell me how to deal with that?
Thanks a lot
Best regards,
Xiaowei
ICQM, PKU, Beijing
I'm using EPW to calculate the resistivity of metals. Following the tutorial of School 2018, I've reproduced the resistivity of lead.
But there is a question about the number of electrons included in the Ziman's formula. As the tutorial said, "n is the number of electron per unit volume and n(?,T) is the Bose-Einstein distribution. Usually, this means the number of electrons that contribute to the mobility and so it is typically 8(full shell) but not always.".
So for example, the number of electron per unit cell of sodium is one, isn't it? If so, the calculated resistivity (multiplied by eight) of sodium is about two times larger than the experimental value.
I'm so confused, could anyone tell me how to deal with that?
Thanks a lot
Best regards,
Xiaowei
ICQM, PKU, Beijing