Luttinger's theorem states that the volume enclosed by a material's Fermi surface is directly proportional to the particle density.

While the theorem is an immediate result of the Pauli exclusion principle in the case of noninteracting particles, it remains true even as interactions between particles are taken into consideration provided that the appropriate definitions of Fermi surface and particle density are adopted. Specifically, in the interacting case the Fermi surface must be defined according to the criteria that

${\displaystyle G(\omega =0,\,p)\to 0}$  or ${\displaystyle \infty ,}$ 

where ${\displaystyle G}$  is the single-particle Green function in terms of frequency and momentum. Then Luttinger's theorem can be recast into the form^[3]

${\displaystyle n=2\int _{G(\omega =0,p)>0}{\frac {d^{D}k}{(2\pi )^{D}}}}$ ,

where ${\displaystyle G}$  is as above and ${\displaystyle d^{D}k}$  is the differential volume of ${\displaystyle k}$ -space in ${\displaystyle D}$  dimensions.

• Fermi liquid
• Fermi surface
• Luttinger–Ward functional

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