Rotor system for a turbine engine

1 . A rotor system for a turbine engine, the rotor system having a longitudinal centerline axis and comprising: a rotor assembly including a plurality of rotor blades, the plurality of rotor blades rotating about the longitudinal centerline axis; and a stator assembly including a plurality of stator vanes arranged circumferentially about the stator assembly and including at least one pair of non-uniform gaps between adjacent stator vanes, the plurality of stator vanes comprising: a first group of stator vanes having a first non-uniform gap of the at least one pair of non-uniform gaps between adjacent stator vanes of the first group of stator vanes; a second group of stator vanes having a second non-uniform gap of the at least one pair of non-uniform gaps between adjacent stator vanes of the second group of stator vanes, the first non-uniform gap being positioned 180° from the second non-uniform gap; and a third group of stator vanes having a uniform spacing between adjacent stator vanes of the third group of stator vanes, wherein the plurality of rotor blades direct air through the plurality of stator vanes. 2 . The rotor system of claim 1 , wherein a number of stator vanes of the stator assembly is even. 3 . The rotor system of claim 1 , wherein a number of rotor blades of the plurality of rotor blades is even. 4 . The rotor system of claim 1 , wherein the plurality of rotor blades is uniformly spaced circumferentially about the rotor assembly. 5 . The rotor system of claim 1 , wherein the stator assembly is positioned downstream of the rotor assembly. 6 . The rotor system of claim 1 , wherein the at least one pair of non-uniform gaps is sized to prevent at least one of a zero nodal diameter system response or a one nodal diameter response. 7 . The rotor system of claim 1 , wherein the air directed through the plurality of stator vanes causes a vibration response on the plurality of stator vanes, and the at least one pair of non-uniform gaps balances the vibration response on the plurality of stator vanes about the stator assembly. 8 . The rotor system of claim 1 , wherein the first group of stator vanes includes two stator vanes of the plurality of stator vanes, and the second group of stator vanes includes two stator vanes of the plurality of stator vanes. 9 . The rotor system of claim 1 , wherein the first non-uniform gap is defined by a number of rotor blades of the plurality of rotor blades, a number of stator vanes of the plurality of stator vanes, and the uniform spacing. 10 . The rotor system of claim 9 , wherein the second non-uniform gap is defined by the number of stator vanes of the plurality of stator vanes, the uniform spacing, and the first non-uniform gap. 11 . A turbine engine having a longitudinal centerline axis and comprising: a rotating shaft, the rotating shaft being at least one of a fan shaft, a high-pressure shaft, or a low-pressure shaft; and a rotor system comprising: a rotor assembly including a plurality of rotor blades, the rotor assembly coupled to the rotating shaft and the plurality of rotor blades rotating about the longitudinal centerline axis; and a stator assembly including a plurality of stator vanes arranged circumferentially about the stator assembly and including at least one pair of non-uniform gaps between adjacent stator vanes, the plurality of stator vanes comprising: a first group of stator vanes having a first non-uniform gap of the at least one pair of non-uniform gaps between adjacent stator vanes of the first group of stator vanes; a second group of stator vanes having a second non-uniform gap of the at least one pair of non-uniform gaps between adjacent stator vanes of the second group of stator vanes, the first non-uniform gap being positioned 180° from the second non-uniform gap; and a third group of stator vanes having a uniform spacing between adjacent stator vanes of the third group of stator vane, wherein the plurality of rotor blades direct air through the plurality of stator vanes. 12 . The turbine engine of claim 11 , wherein a number of stator vanes of the stator assembly is even. 13 . The turbine engine of claim 11 , wherein a number of rotor blades of the plurality of rotor blades is even. 14 . The turbine engine of claim 11 , wherein the plurality of rotor blades is uniformly spaced circumferentially about the rotor assembly. 15 . The turbine engine of claim 11 , wherein the stator assembly is positioned downstream of the rotor assembly. 16 . The turbine engine of claim 11 , wherein the at least one pair of non-uniform gaps is sized to prevent at least one of a zero nodal diameter system response or a one nodal diameter response. 17 . The turbine engine of claim 11 , wherein the air directed through the plurality of stator vanes causes a vibration response on the plurality of stator vanes, and the at least one pair of non-uniform gaps balances the vibration response on the plurality of stator vanes about the stator assembly. 18 . The turbine engine of claim 11 , wherein the first group of stator vanes includes two stator vanes of the plurality of stator vanes, and the second group of stator vanes includes two stator vanes of the plurality of stator vanes. 19 . The turbine engine of claim 11 , wherein the first non-uniform gap is defined by a number of rotor blades of the plurality of rotor blades, a number of stator vanes of the plurality of stator vanes, and the uniform spacing. 20 . The turbine engine of claim 19 , wherein the second non-uniform gap is defined by the number of stator vanes of the plurality of stator vanes, the uniform spacing, and the first non-uniform gap.