Key equations from quantum statistical tools: Difference between revisions

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Equilibrium

Expectation values

$A=\mathrm {Tr} [{\hat {\rho }}_{\mathrm {eq} }{\hat {A}}]$

Density matrix of fermions in equilibrium

using spectral decomposition:

${\hat {\rho }}_{\mathrm {eq} }=\sum _{\alpha }f(E_{\alpha })|E_{\alpha }\rangle \langle E_{\alpha }|=f({\hat {H}}-\mu {\hat {I}})$

using Green functions:

${\hat {\rho }}_{\mathrm {eq} }=-{\frac {1}{\pi }}\int dE\,\mathrm {Im} G^{r}f(E)$

Fermi-Dirac distribution function: $f(E)=1/[\exp((E-\mu )/k_{B}T)+1]$

Hamiltonian and its spectral decomposition: ${\hat {H}}=\sum _{\alpha }E_{\alpha }|E_{\alpha }\rangle \langle E_{\alpha }|$

function of Hamiltonian: $F({\hat {H}})=\sum _{\alpha }F(E_{\alpha })|E_{\alpha }\rangle \langle E_{\alpha }|$

Green operators: ${\hat {G}}^{r,a}=[E{\hat {I}}-{\hat {H}}\pm i\eta ]^{-1}$

Charge density

charge density operator: ${\hat {n}}(\mathbf {r} )=|\mathbf {r} \rangle \langle \mathbf {r} |$

expectation value: $n(\mathbf {r} )=\mathrm {Tr} [{\hat {\rho }}_{\mathrm {eq} }|\mathbf {r} \rangle \langle \mathbf {r} |]=\langle \mathbf {r} |{\hat {\rho }}_{\mathrm {eq} }|\mathbf {r} \rangle$ (in some discrete representation these is just diagonal matrix element)

Density of states

definition: $g(E)=\sum _{\alpha }\delta (E-E_{\alpha })$ (with possible normalization factors like $2_{s}/V$ )

local density of states: $n(\mathbf {r} )=\mathrm {Tr} [{\hat {\rho }}_{\mathrm {eq} }|\mathbf {r} \rangle \langle \mathbf {r} |]=\sum _{\alpha }|\Psi _{\alpha }(\mathbf {r} )|^{2}f(E_{\alpha })=\int dE\left[\sum _{\alpha }|\Psi _{\alpha }(\mathbf {r} )|^{2}\delta (E-E_{\alpha })\right]f(E)=\int dE\,g(r,E)f(E)$

Nonequilibrium

Expectation values:

Current operator:

Spin torque operator:

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