Exhaust gas purification system for internal combustion engine

What is claimed is: 1. An exhaust gas purification system for an internal combustion engine comprising a cylinder group including a plurality of cylinders, the system comprising: a three-way catalyst that is arranged in an exhaust passage at the downstream side of a merge portion of exhaust branch pipes which are connected to individual cylinders of the cylinder group; an air fuel ratio sensor that is arranged in a portion in the exhaust passage at the upstream side of the three-way catalyst; and a controller comprising at least one processor configured to control an air fuel ratio of a mixture in a part of the cylinders of the cylinder group to a lean air fuel ratio leaner than a stoichiometric air fuel ratio, and control an air fuel ratio of a mixture in a part of the other cylinders of the cylinder group to a rich air fuel ratio richer than the stoichiometric air fuel ratio, and carry out air fuel ratio dither control in which the air fuel ratio of the mixture in each of one or more lean cylinders, in which the air fuel ratio of the mixture is controlled to the lean air fuel ratio, and one or more rich cylinders, in which the air fuel ratio of the mixture is controlled to the rich air fuel ratio, is controlled in a feedback manner based on an average value of a detected value of the air fuel ratio sensor, in such a manner that an average value of an air fuel ratio of exhaust gas flowing into the three-way catalyst becomes a predetermined target exhaust gas air fuel ratio; wherein the controller carries out the air fuel ratio dither control by setting as the one or more lean cylinders, at least a cylinder, in which a gas impingement intensity, which is an intensity of impingement of exhaust gas discharged from the cylinder against the air fuel ratio sensor, is the highest, in the cylinder group. 2. The exhaust gas purification system for an internal combustion engine according to claim 1 , wherein the controller further carries out the air fuel ratio dither control, by setting, as the one or more rich cylinders, at least a cylinder with the lowest gas impingement intensity in the cylinder group. 3. The exhaust gas purification system for an internal combustion engine according to claim 1 , wherein when the air fuel ratio dither control is carried out by setting, as the one or more lean cylinders, two or more of the plurality of cylinders in the cylinder group, the controller carries out the air fuel ratio dither control, by setting, as the one or more lean cylinders, cylinders in the cylinder group in the order of decreasing the gas impingement intensity from the highest. 4. The exhaust gas purification system for an internal combustion engine according to claim 2 , wherein when the air fuel ratio dither control is carried out by setting, as the one or more lean cylinders, two or more of the plurality of cylinders in the cylinder group, the controller carries out the air fuel ratio dither control, by setting, as the one or more lean cylinders, cylinders in the cylinder group in the order of decreasing the gas impingement intensity from the highest. 5. The exhaust gas purification system for an internal combustion engine according to claim 1 , wherein when the air fuel ratio dither control is carried out by setting, as the one or more lean cylinders, two cylinders of which the order of combustion is continuous among the plurality of cylinders in the cylinder group, the controller carries out the air fuel ratio dither control, by setting, as the one or more lean cylinders, a cylinder with the highest gas impingement intensity in the cylinder group, and another cylinder of which the combustion order is immediately before or after the cylinder with the highest gas impingement intensity and which has a higher gas impingement intensity than that of a cylinder of which the combustion order is immediately after or before the cylinder with the highest gas impingement intensity.