Examples, guide and formulary
System
-
-
-
-
-
Optional (for cell parameters):
Results
System parameters
-
\(T\)
=
NA
K
-
\(k_B T\)
=
NA
eV
-
\(\rho_{total}\)
=
NA
g/cc
-
\( \rho_{1} \)
=
NA
mass \(\%\)
-
\( \rho_{2} \)
=
NA
mass \(\%\)
-
\( \rho_{3} \)
=
NA
mass \(\%\)
-
\( \rho_{4} \)
=
NA
mass \(\%\)
-
\( \rho_{5} \)
=
NA
mass \(\%\)
-
\( \rho_{1} \)
=
NA
molar \(\%\)
-
\( \rho_{2} \)
=
NA
molar \(\%\)
-
\( \rho_{3} \)
=
NA
molar \(\%\)
-
\( \rho_{4} \)
=
NA
molar \(\%\)
-
\( \rho_{5} \)
=
NA
molar \(\%\)
Electron parameters
-
\(n_e\)
=
NA
Bohr\({}^{-3}\)
-
\(n_e\)
=
NA
Ang\({}^{-3}\)
-
\(n_e\)
=
NA
cm\({}^{-3}\)
-
\(a_e\)
=
NA
Ang
-
\(a_e\)
=
NA
Bohr
-
\(r_s\)
=
NA
-
\(k_F\)
=
NA
Bohr\({}^{-1}\)
-
\(E_F\)
=
NA
eV
-
\(\Theta\)
=
NA
-
\(\Gamma_{ee}\)
=
NA
-
\(x_{r}\)
=
NA
-
\(\lambda_{dB}\)
=
NA
Bohr
-
\(\hbar \omega_{pe} \)
=
NA
eV
-
\(\beta \hbar \omega_{pe}\)
=
NA
-
\(1/\omega_{pe} \)
=
NA
fs
-
\(\lambda_{TF}^{\Theta=0}\)
=
NA
Bohr
-
\(\lambda_{D}\)
=
NA
Bohr
Ion parameters
-
\(n_{total}\)
=
NA
Bohr\({}^{-3}\)
-
\(n_{total}\)
=
NA
Ang\({}^{-3}\)
-
\(n_{total}\)
=
NA
cm\({}^{-3}\)
-
\( \left< M \right> \)
=
NA
amu
-
\( \left< Z \right> \)
=
NA
-
\( \left< Z^2 \right> \)
=
NA
-
\( \left< Z^{5/3} \right> \)
=
NA
-
\( a \)
=
NA
Ang
-
\( a \)
=
NA
Bohr
-
\( R_s \)
=
NA
-
\(k_F\)
=
NA
Bohr\({}^{-1}\)
-
\(E_F\)
=
NA
eV
-
\(\Theta\)
=
NA
-
\( \Gamma \)
=
NA
-
\( \Gamma_{eff} \)
=
NA
-
\(x_{r}\)
=
NA
-
\(\lambda_{dB}\)
=
NA
Bohr
-
\( \hbar \omega_p \)
=
NA
eV
-
\(\beta \hbar \omega_{p}\)
=
NA
-
\( {\omega_p} \)
=
NA
s\({}^{-1}\)
-
\( 1/\omega_p \)
=
NA
fs
-
\( a^2 \omega_p \)
=
NA
cm\({}^{2}\) s\({}^{-1}\)
Cell parameters
-
\( N_{total} \)
=
NA
-
\( N_{1} \)
=
NA
-
\( N_{2} \)
=
NA
-
\( N_{3} \)
=
NA
-
\( N_{4} \)
=
NA
-
\( N_{5} \)
=
NA
-
\( V_{cell} \)
=
NA
Bohr\({}^3\)
-
\( V_{cell} \)
=
NA
Ang\({}^3\)
-
\( L_{cell} \)
=
NA
Bohr
-
\( L_{cell} \)
=
NA
Ang
