On Exchange-Correlation Energy in DFT Scenarios
Abstract
Motivated by the considerable importance of material properties in modern condensed matter physics research, and using techniques of the Ne -electron systems in terms of the electron density nσ e( r) needed to obtain the ground-state energy Ee in Density Functional Theory scenarios, we approach the Exchange-Correlation energy Exc[ nσ e(r)] by considering the interelectronic position corrections rx , =λ x δ r -δ r and rceiej≠ i=λ c r-r -( Ne-1) -1 corresponding to the spin and the Coulomb correlation effects, respectively, through the electron-electron potential energy. Exploiting such corrections, we get approximate expressions for the exchange Ex[ nσ e ] and the correlation Ec[ nσ e] functional energies which could be interpreted in terms of magnetic and electric dipole potential energies associated with the charge density nσ e( r) described by inverse-square potential behaviors. Based on these arguments, we expect that such obtained Exchange-Correlation functional energy could be considered in the Local Density Approximation functional as an extension to frame such interelectronic effects.
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