VALIDATION AND PARALLELIZATION OF THE PARTICLE IN CELL/MONTE CARLO COLLISION NUMERICAL CODE FOR THE RF DISCHARGE SIMULATIONS

Date

2015-01-01

Author

SARIKAYA, Cemre Kusoglu
Rafatov, İsmail
Çakır, Serhat

Metadata

Show full item record

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Item Usage Stats

100
views

0
downloads

URI

https://hdl.handle.net/11511/53781

Collections

Department of Physics, Conference / Seminar

Suggestions

OpenMETU
Core

Validation and parametric studies of discrete vortex method on flow around bluff bodies Yalçın, Ruhi Deniz; Kurç, Özgür; Department of Civil Engineering (2019) Aerodynamical analysis of rectangular sections, and a bridge deck section are investigated by 2D Discrete Vortex Method for two dimensional, unsteady, incompressible and viscous flows which is developed using C++ programming language. The numerical algorithm and methodology are explained in detail. The numerical method is validated by comparing its results with several experimental results. Moreover, the sensitivity of numerical solutions is examined by some control parameters which inhibit the most signifi...
Verification and MATLAB implementation of the inverse dynamics model of the METU gait analysis system Erer, Koray Savaş; Tönük, Ergin; Department of Mechanical Engineering (2008) The METU Gait Analysis System employs a computer program called Kiss-GAIT for the calculation of joint angles, moments and powers using force plate data and marker trajectories as input. Kiss-GAIT was developed using Delphi and is confined to calculations related to the standard gait protocol. Because the code lacks the flexibility required to carry out various test cases, the inverse dynamics formulation being used could not be verified and the extent of the error propagation problem could not be determine...
Validation of a low-order model for closed-loop flow control enable flight Tchieu, Andrew A.; Kutay, Ali Türker; Muse, Jonathan A.; Calise, Anthony J.; Leonard, Anthony (2008-12-01) A simple low-order model is derived to determine the flow forces and moments on an airfoil that arbitrarily pitches and plunges with the presence of synthetic jet actuation for the use in an adaptive closed-loop control scheme. The low-order model captures the attached flow response of an airfoil in the presence of synthetic jet actuators near the trailing edge. The model includes two explicit non-linear states for fluid variables and can be easily coupled to the rigid body dynamics of the system. The model...
VALIDATION OF THE PARTICLE IN CELL MONTE CARLO COLLISION NUMERICAL CODE FOR THE RF DISCHARGE SIMULATION Kuşoğlu Sarıkaya, Cemre; Rafatov, İsmail; Çakır, Serhat (2016-3-01) We developed 1d3v Particle in Cell/Monte Carlo Collision (PIC/MCC) numerical code for the RF (radio-frequency) capacitive glow discharge. This method includes the solution of the Lorentz force equation for the motion of super particles and the Poisson equation for the electric field. Collisions between the particles are modeled with the Monte Carlo method. In this process, the isotropic and charge exchange collisions between the ion-neutral pairs, as well as the elastic, excitation and ionization collisions...
Validation of the Particle in Cell Monte Carlo Collision numerical code for the RF discharge simulations Kuşoğlu Sarıkaya, Cemre; Rafatov, İsmail; Çakır, Serhat (2014-04-01)

Citation Formats

C. K. SARIKAYA, İ. Rafatov, and S. Çakır, “VALIDATION AND PARALLELIZATION OF THE PARTICLE IN CELL/MONTE CARLO COLLISION NUMERICAL CODE FOR THE RF DISCHARGE SIMULATIONS,” 2015, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/53781.