Introduction of analysis examples using "Particle-PLUS" Particle-PLUS also allows for the calculation of overlapping two-frequency CCP.
"Particle-PLUS" is a simulation software suitable for research, development, and manufacturing of devices and materials using plasma. - It specializes in low-pressure plasma analysis. - By combining axisymmetric models with mirror-symmetric boundary conditions, it can quickly obtain results without the need for full device simulations. - It excels in plasma simulations for low-pressure gases, where calculations using fluid models are challenging. - It supports 2D (two-dimensional) and 3D (three-dimensional) analyses, allowing for efficient analysis of complex models. - As a strength of our in-house developed software, customization to fit the customer's device is also possible. ◆ Supports various applications ◆ - Magnetron sputtering - PVD, plasma CVD - Capacitively coupled plasma (CCP) - Dielectric barrier discharge (DBD) - Electrophoresis, etc. ◆ Outputs various calculation results ◆ - Potential distribution - Electron and ion density distribution/temperature distribution/generation distribution - Particle flux and energy flux to the walls - Energy spectrum of electrons and ions at the walls - Neutral gas density distribution/temperature distribution/velocity distribution, etc. *Please feel free to contact us for more details.
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basic information
【Features】 ● The time scheme uses an implicit method, allowing for stable time evolution to be calculated over a large time step Δt compared to conventional methods. ● The collision reaction model between neutral gas and electrons and ions employs the Monte Carlo Scattering method, enabling accurate and rapid calculations of complex reaction processes. ● The neutral gas module determines the initial neutral gas distribution used in the above plasma module, allowing for quick evaluation of gas flow using the DSMC method. ● The sputtered particle module calculates the behavior of atoms sputtered from the target in plasma and neutral gas environments in magnetron sputtering devices, enabling quick evaluation of flux distribution on opposing substrates. *For other functions and details, please feel free to contact us.
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P4
Applications/Examples of results
【Dual Frequency Capacitive Coupled Plasma】 - Optimization of voltage and other parameters to achieve high-density plasma - Damage to chamber walls - Optimization of power using external circuit models - It is possible to apply voltages to the electrode plates that align with real devices - The waveform of the applied voltage can be simulated smoothly and with relatively realistic voltages - Calculations are relatively stable to avoid applying excessive voltages 【DC Magnetron Sputtering】 - Uniformity of erosion dependent on magnetic field distribution - Adsorption distribution of sputtered materials on the substrate 【Pulsed Voltage Magnetron Sputtering】 - Optimization of the application time of pulsed voltage to efficiently sputter materials 【Ion Implantation】 - The influence of the substrate on the erosion distribution 【Time Evolution of Applied Voltage on Electrode Plates】 - It is possible to observe physical quantities that are difficult to measure experimentally, such as electron density and ion velocity distribution - By investigating electron density and ion velocity distribution, it is possible to examine the uniformity of the film and the damage to the chamber walls - It is possible to optimize the generation of high-density plasma at low power by changing calculation conditions
Detailed information
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Time evolution of plasma particle number
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Time evolution of accumulated charge on the electrode and dielectric surface.
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Time evolution of electrode potential
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Time evolution of J・E and J・dD/dt
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Electron density distribution of RF cycle average in steady state.
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Ar+ ion density distribution averaged over RF cycles in a steady state.
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Potential distribution of RF cycle average in steady state.
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Electron temperature distribution of RF cycle average in steady state.
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Distribution of the RF cycle-averaged Ar+ ion flux on the HFE and LFE electrode surfaces in a steady state.
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![[Case Study] CCP Plasma Simulation Using the Particle-PLUS External Circuit Model](https://image.www.ipros.com/public/catalog/image/01/d15/513467/IPROS49127693160706889091.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS Cylindrical Magnetron Device Plasma Sputtering Simulation](https://image.www.ipros.com/public/catalog/image/01/28d/513469/IPROS57753432477912697050.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS DC Magnetron Sputtering Simulation](https://image.www.ipros.com/public/catalog/image/01/426/513472/IPROS31362668036278405479.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS DC Magnetron Sputtering (3D Calculation) Simulation](https://image.www.ipros.com/public/catalog/image/01/600/513473/IPROS14341653820382667928.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS Counter-Target Sputtering Simulation](https://image.www.ipros.com/public/catalog/image/01/33c/513474/IPROS71008523339880745470.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS Opposing Target Sputtering Simulation](https://image.www.ipros.com/public/catalog/image/01/86c/513475/IPROS47056299894055276861.jpeg?w=120&h=170)
![[Case Study] Particle-PLUS RF Magnetron Sputtering Simulation](https://image.www.ipros.com/public/catalog/image/01/bb3/513673/IPROS35622406148691072631.jpeg?w=120&h=170)
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