Patent Number: 
Section: claims

1. A method of plasma particle simulation for analyzing the behavior of a plasma particle in plasma generated in a cylindrical-shaped housing chamber included by a plasma processing apparatus by calculating the behavior of a superparticle which is a virtual particle representing a plurality of plasma particles, comprising:dividing a space within said cylindrical-shaped housing chamber into a plurality of cells;setting a weighting factor corresponding to the number of said plasma particles represented by said superparticle in each of said divided cells;setting superparticles in each of said divided cells using plasma particles contained in said divided cell and said set weighting factor; andcalculating the behavior of said superparticles in each of said divided cells;wherein a volume of each of said divided cells is set small in the vicinity of a peripheral portion of said cylindrical-shaped housing chamber, andsaid weighting factor is set small in said divided cell in the vicinity of the peripheral portion of said cylindrical-shaped housing chamber. 2. The method of plasma particle simulation according to claim 1, further comprising default-setting said plasma particles in each of said divided cells. 3. The method of plasma particle simulation according to claim 1, wherein a plurality of weighting functions representing a relationship between a distance of said divided cell from a solid wall surface and said weighting factor are prepared, one of said weighting functions is selected in said setting the weighting factor step on the basis of a state of plasma predicted to be generated within said cylindrical-shaped housing chamber, and said weighting factor is set in each of said divided cells using said selected weighting function. 4. The method of plasma particle simulation according to claim 3, wherein one of said plurality of weighting functions is based on a trigonometric function. 5. The method of plasma particle simulation according to claim 3, wherein one of said plurality of weighting functions is based on a power index-based function. 6. The method of plasma particle simulation according to claim 1, wherein an increase/decrease in the number of said superparticles is determined using a probabilistic measure when said superparticles move from one of said divided cells to another one of said divided cells adjacent thereto. 7. The method of plasma particle simulation according to claim 1, wherein a space within said cylindrical-shaped housing chamber is divided axisymmetrically with respect to the central axis thereof into the plurality of cells in said dividing step, and a smaller weighting factor is set in any of said divided cells located closer to said central axis in said setting the weighting factor step. 8. The method of plasma particle simulation according to claim 1, wherein the volume of each of said divided cells is set small in an area in which a sheath is generated. 9. A non-transitory computer-readable storage medium for storing a program, which when executed by a computer, causes the computer to implement a method of plasma particle simulation for analyzing the behavior of a plasma particle in plasma generated in a cylindrical-shaped housing chamber included by a plasma processing apparatus by calculating the behavior of a superparticle which is a virtual particle representing a plurality of plasma particles, said method comprising:dividing a space within said cylindrical-shaped housing chamber into a plurality of cells;setting a weighting factor corresponding to the number of said plasma particles represented by said superparticle in each of said divided cells;setting superparticles in each of said divided cells using plasma particles contained in said divided cell and said set weighting factor; andcalculating the behavior of said superparticles in each of said divided cells;wherein a volume of each of said divided cells is set small in the vicinity of a peripheral portion of said cylindrical-shaped housing chamber, andsaid weighting factor is set small in said divided cell in the vicinity of the peripheral portion of said cylindrical-shaped housing chamber. 10. A plasma particle simulator for implementing a method of plasma particle simulation for analyzing the behavior of a plasma particle in plasma generated in a cylindrical-shaped housing chamber included by a plasma processing apparatus by calculating the behavior of a superparticle which is a virtual particle representing a plurality of plasma particles, comprising:a cell division unit adapted to divide a space within said cylindrical-shaped housing chamber into a plurality of cells;a weighting factor setting unit adapted to set a weighting factor corresponding to the number of said plasma particles represented by said superparticle in each of said divided cells;a superparticle setting unit adapted to set superparticles in each of said divided cells using plasma particles contained in said divided cell and said set weighting factor; anda behavior calculation unit adapted to calculate the behavior of said superparticles in each of said divided cells;wherein a volume of each of said divided cells is set small in the vicinity of a peripheral portion of said cylindrical-shaped housing chamber, andsaid weighting factor is set small in said divided cell in the vicinity of the peripheral portion of said cylindrical-shaped housing chamber. 11. A plasma processing apparatus provided with a cylindrical-shaped housing chamber in which plasma is generated and a plasma particle simulator for implementing a method of plasma particle simulation for analyzing the behavior of a plasma particle in plasma generated in said cylindrical-shaped housing chamber by calculating the behavior of a superparticle which is a virtual particle representing a plurality of plasma particles, wherein said plasma particle simulator includes:a cell division unit adapted to divide a space within said cylindrical-shaped housing chamber into a plurality of cells;a weighting factor setting unit adapted to set a weighting factor corresponding to the number of said plasma particles represented by said superparticle in each of said divided cells;a superparticle setting unit adapted to set superparticles in each of said divided cells using plasma particles contained in said divided cell and said set weighting factor; anda behavior calculation unit adapted to calculate the behavior of said superparticles in each of said divided cells;wherein a volume of each of said divided cells is set small in the vicinity of a peripheral portion of said cylindrical-shaped housing chamber, andsaid weighting factor is set small in said divided cell in the vicinity of the d peripheral portion of said cylindrical-shaped housing chamber.