Systems and methods for setting a downhole plug using a self damping setting tool

What is claimed is: 1. A setting tool for actuating a downhole plug in a wellbore, comprising: a housing comprising a central passage; a piston slidably disposed in the housing and comprising a central passage, and wherein the piston comprises a first position in the housing and a second position the housing spaced from the first position in a first axial direction; an atmospheric chamber filled with compressible fluid formed radially between the piston and the housing, and wherein the atmospheric chamber is sealed from an environment surrounding the setting tool when the piston is in the first position; an annular first seal assembly positioned in a first groove formed on an inner surface of the housing, wherein the first seal assembly sealingly engages an outer surface of the piston and restricts fluid communication between the atmospheric chamber and the environment surrounding the setting tool; an annular second seal assembly positioned in a groove formed on the outer surface of the piston, wherein the second seal assembly sealingly engages the inner surface of the housing and wherein the atmospheric chamber extends axially form the first seal assembly to the second seal assembly; and an annular third seal assembly positioned in the second groove formed on the inner surface of the housing, wherein the third seal assembly sealingly engages the outer surface of the piston; wherein the second seal assembly is positioned axially between the first seal assembly and the third seal assembly and wherein an inner diameter of the first seal assembly is greater than an inner diameter of the third seal assembly; wherein, in response to a pressurization of the central passage of the piston, the setting tool is configured to displace the piston from the first position to the second position and compress the compressible fluid within the atmospheric chamber. 2. The setting tool of claim 1 , wherein: a groove is formed in the outer surface of the piston, and wherein the piston comprises a third position wherein the groove is positioned axially between a first end and a second end of the first seal assembly whereby fluid communication is provided between the atmospheric chamber and the environment surrounding the setting tool. 3. The setting tool of claim 2 , wherein: an annular pressure chamber extends from the second seal assembly to the third seal assembly, and wherein the pressure chamber is in fluid communication with the central passage of the piston via a port formed in the piston. 4. The setting tool of claim 3 , wherein: the second seal assembly restricts fluid communication between the pressure chamber and the environment surrounding the setting tool when the piston is in the first position; the outer surface of the piston comprises a recess formed therein, and wherein the second seal assembly is positioned axially between the recess and the first seal assembly when the piston is in the first position; and at least a portion of the recess is positioned axially between the second seal assembly and the first seal assembly when the piston is in the third position. 5. The setting tool of claim 3 , further comprising: an annular impact ring positioned about the piston and axially between the and the first seal assembly and the second seal assembly; wherein the impact ring is configured to impact the piston when the setting tool is actuated from the first position to the second position. 6. The setting tool of claim 5 , wherein the impact ring comprises a material having a hardness that is less than a hardness of a material comprising the housing. 7. The setting tool of claim 1 , wherein the setting tool further comprises a piston adapter configured to releasably couple to the piston via a first internal connector of the piston adapter that is positioned on an inner surface thereof, and wherein the piston adapter comprises a second internal connector positioned on the inner surface of thereof and an external connector positioned on an outer surface thereof. 8. The setting tool of claim 1 , further comprising: a mandrel slidably disposed in the housing and comprising a first end coupled to the piston, and a second end configured to couple with a mandrel of the downhole plug; an annular pressure chamber positioned radially between an inner surface of the housing and an outer surface of the mandrel, and wherein the pressure chamber is in fluid communication with the central passage of the piston via a port formed in the piston; and an annular impact ring positioned about the mandrel, and wherein the impact ring is positioned axially between the pressure chamber and the second end of the mandrel and within a vent chamber that is exposed to an environment surrounding the setting tool when the piston is in the first position, and wherein the impact ring is configured to impact a shoulder of the mandrel when the piston is actuated from the first position to the second position in response to a pressurization of the central passage of the piston. 9. A setting tool for actuating a downhole plug in a wellbore, comprising: a housing comprising a central passage; and a piston slidably disposed in the housing and comprising a central passage, a first end, and a second end, wherein the piston comprises a first position in the housing and a second position the housing spaced from the first position in a first axial direction; a mandrel slidably disposed in the housing and comprising a first end coupled to a second end of the piston, and a second end configured to couple with a mandrel of the downhole plug; and an annular pressure chamber positioned radially between an inner surface of the housing and an outer surface of the mandrel, and wherein the pressure chamber is in fluid communication with the central passage of the piston via a port formed in the piston; and an annular impact ring positioned about the mandrel, and wherein the impact ring is positioned axially between the pressure chamber and the second end of the mandrel and within a vent chamber that is exposed to an environment surrounding the setting tool when the piston is in the first position, and wherein the impact ring is configured to impact a shoulder of the mandrel when the piston is actuated from the first position to the second position in response to a pressurization of the central passage of the piston. 10. The setting tool of claim 9 , wherein the impact ring comprises a material having a hardness that is less than a hardness of a material comprising the housing. 11. The setting tool of claim 9 , further comprising: a sealed chamber formed around the piston and which is sealed from an environment surrounding the setting tool by an annular first seal assembly; a radial port formed in the housing and comprising a vent orifice, wherein a plug is removeably positioned in the radial port; wherein, in response to the pressurization of the central passage of the piston of the setting tool, the setting tool is configured to eject the plug from the radial port to permit fluid communication between the sealed chamber and the environment surrounding the setting tool. 12. The setting tool of claim 11 , wherein a ratio of a surface area of the vent orifice and an axially-projected surface area of the piston is between 0.1% and 0.95%. 13. The setting tool of claim 11 , wherein the sealed chamber is filled with hydraulic oil. 14. The setting tool of claim 9 , further comprising a sealed chamber formed around the piston and which is sealed from an environment surrounding the setting tool by an annular first seal assembly, and wherein the sealed chamber comprises an atmospheri