Key equations from quantum statistical tools: Difference between revisions
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* function of Hamiltonian: <math> F(\hat{H}) = \sum_\alpha F(E_\alpha) |E_\alpha \rangle \langle E_\alpha| </math> | * function of Hamiltonian: <math> F(\hat{H}) = \sum_\alpha F(E_\alpha) |E_\alpha \rangle \langle E_\alpha| </math> | ||
* Green operators: <math> \hat{G}^{r,a} = [E\hat{I}-\hat{H} \pm i\eta]^{-1} </math> | * Green operators: | ||
<math> \hat{G}^{r,a}(E) = [E\hat{I}-\hat{H} \pm i\eta]^{-1} </math> | |||
<math> \mathrm{Im} \hat{G}^r = (\hat{G}^{r} - \hat{G}^a)/2i </math> | |||
===Charge density=== | ===Charge density=== | ||
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* definition of LDOS: <math> g(E) = \int d^3 \mathbf{r} g(\mathbf{r},E) </math> | * definition of LDOS: <math> g(E) = \int d^3 \mathbf{r} g(\mathbf{r},E) </math> | ||
* LDOS using wavefunctions: <math> 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) </math> | * LDOS using wavefunctions: <math> 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(\mathbf{r},E) f(E) </math> | ||
* LDOS using Green functions: | |||
<math> g(\mathbf{r},E) = -\frac{1}{\pi} \langle \mathbf{r} |\mathrm{Im} \hat{G}^r(E) | \mathbf{r} \rangle </math> | |||
* | * total DOS using Green functions: | ||
<math> g(E) = -\frac{1}{\pi} \mathrm{Tr}[ \hat{G}^r(E)] = -\frac{1}{\pi} \int d^3 \mathbf{r} \, \langle \mathbf{r} |\mathrm{Im} \hat{G}^r(E) | \mathbf{r} \rangle </math> | |||
==Nonequilibrium== | ==Nonequilibrium== | ||
===Expectation values=== | |||
<math> A = \mathrm{Tr}[\hat{\rho}_\mathrm{neq} \hat{A}] </math> | |||
*Current | *Current operators: | ||
Latest revision as of 14:32, 27 September 2012
Equilibrium
Expectation values
![{\displaystyle A=\mathrm {Tr} [{\hat {\rho }}_{\mathrm {eq} }{\hat {A}}]}](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/d77f222eefdf9f8c9f86982c0ba4074668388603)
Density matrix of fermions in equilibrium
- using spectral decomposition:
- using Green functions:
- Fermi-Dirac distribution function:
![{\displaystyle f(E)=1/[\exp((E-\mu )/k_{B}T)+1]}](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/0042e1bba268303b9a4fbfc477c1b5adcea8be6f)
- Hamiltonian and its spectral decomposition:
- function of Hamiltonian:
- Green operators:
![{\displaystyle {\hat {G}}^{r,a}(E)=[E{\hat {I}}-{\hat {H}}\pm i\eta ]^{-1}}](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/0ee29d13f44a368965f975c9325224a4371a1a98)
Charge density
- charge density operator:
- expectation value: (in some discrete representation these is just diagonal matrix element)
![{\displaystyle 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 }](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/7a46cd7495d01ca503a26f55cc02ec4101505cf3)
Density of states
- definition of total DOS: (with possible normalization factors like )
- definition of LDOS:
- LDOS using wavefunctions:
![{\displaystyle 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(\mathbf {r} ,E)f(E)}](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/2936de2e77327f4089b9e316053c48f293a681b0)
- LDOS using Green functions:
- total DOS using Green functions:
![{\displaystyle g(E)=-{\frac {1}{\pi }}\mathrm {Tr} [{\hat {G}}^{r}(E)]=-{\frac {1}{\pi }}\int d^{3}\mathbf {r} \,\langle \mathbf {r} |\mathrm {Im} {\hat {G}}^{r}(E)|\mathbf {r} \rangle }](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/b2e4c60d01bbd18e61f80f30cfa0f26ea6c2edab)
Nonequilibrium
Expectation values
![{\displaystyle A=\mathrm {Tr} [{\hat {\rho }}_{\mathrm {neq} }{\hat {A}}]}](https://en.wikipedia.org/api/rest_v1/media/math/render/svg/3f803ad388615d9926243cb2742430e05149e4bc)
- Current operators:
