Add to ORKGWe calculate exactly the Coulomb self-energy of a uniformly charged three-dimensional cylinder. We derive a general analytical formula which, in the limit of zero length, gives also the correct result for the Coulomb self-energy of a uniformly charged two-dimensional disk. The exact analytical expression that we derive can be used in models that incorporate finite thickness effects in studies of two-dimensional electronic systems in the fractional quantum Hall regime as well as models that describe cylindrical beams of charged particles, certain colloidal suspensions of charged rigid rod-like particles and biological systems consisting of macromolecules with cylindrical symmetry. © 2012 Elsevier B.V. All rights reserved
We obtain exact analytical expressions for the total energy per particle and related quantities corr...
I investigate the system-size dependence of the thermodynamic properties of classical Coulomb system...
We consider a nanosystem consisting of two coplanar uniformly charged nanodisks that are coupled via...
We calculate exactly the Coulomb self-energy of a uniformly charged three-dimensional cylinder. We d...
In a previous work [O. Ciftja, Phys. Lett. A 374 (2010) 981] we reported the exact calculation of th...
A large number of electronic devices contain charged, flat plates (electrodes) as their components. ...
The article aims at studying hypergeometric-type mathematical techniques based on the extension of a...
The most popular model for a two-dimensional electronic system considers electrons moving in a backg...
We report a concise expression for the electrostatic Coulomb self-energy of a uniformly charged cube...
Knowledge of electrical potential and energy is important to systems where electrostatic forces play...
Closed-form expressions of the Coulomb electrostatic potential created by a uniformly charged disk a...
We consider a uniformly charged circular disk containing elementary charges that interact with an an...
A method for calculating the Coulomb energy in a periodic system is discussed for the case that the ...
The self-energy of the free electron at rest Is evaluated without the restriction that the self-inte...
We obtain exact analytical expressions for the total energy per particle and related quantities corr...
I investigate the system-size dependence of the thermodynamic properties of classical Coulomb system...
We consider a nanosystem consisting of two coplanar uniformly charged nanodisks that are coupled via...
We calculate exactly the Coulomb self-energy of a uniformly charged three-dimensional cylinder. We d...
In a previous work [O. Ciftja, Phys. Lett. A 374 (2010) 981] we reported the exact calculation of th...
A large number of electronic devices contain charged, flat plates (electrodes) as their components. ...
The article aims at studying hypergeometric-type mathematical techniques based on the extension of a...
The most popular model for a two-dimensional electronic system considers electrons moving in a backg...
We report a concise expression for the electrostatic Coulomb self-energy of a uniformly charged cube...
Knowledge of electrical potential and energy is important to systems where electrostatic forces play...
Closed-form expressions of the Coulomb electrostatic potential created by a uniformly charged disk a...
We consider a uniformly charged circular disk containing elementary charges that interact with an an...
A method for calculating the Coulomb energy in a periodic system is discussed for the case that the ...
The self-energy of the free electron at rest Is evaluated without the restriction that the self-inte...
We obtain exact analytical expressions for the total energy per particle and related quantities corr...
I investigate the system-size dependence of the thermodynamic properties of classical Coulomb system...
We consider a nanosystem consisting of two coplanar uniformly charged nanodisks that are coupled via...