Proximity measurement between seal elements of a gas turbine engine

1 . A stator assembly of a gas turbine engine, comprising: a stator including at least: a stator vane; and a stator inner platform located radially inboard of the stator vane; a stator inner airseal disposed radially inboard of the stator inner platform, the stator inner airseal configured to define a seal arrangement with two or more knife edges of a radially adjacent rotating component; and a sensor disposed at the stator inner airseal, the sensor including a sensor body configured to be positioned axially between axially adjacent knife edges of the two or more knife edges and configured to detect a radial distance from the sensor to the radially adjacent rotating component; wherein the stator inner airseal includes a seal carrier and a seal element installed into the seal carrier radially inboard of the seal carrier; and wherein the sensor body is disposed radially between the seal element and the seal carrier such that the seal element is disposed radially between the sensor body and the rotating component. 2 . The stator assembly of claim 1 , wherein the sensor body is sized and positioned such that the sensor body is configured to be positioned axially between the knife edges during all anticipated operating conditions of the gas turbine engine. 3 . The stator assembly of claim 1 , wherein the sensor body is disposed in a trench formed in the stator inner airseal. 4 . The stator assembly of claim 1 , wherein the sensor is a capacitance sensor. 5 . The stator assembly of claim 1 , wherein the sensor body has a radial thickness in the range of 0.005″ to 0.020″. 6 . The stator assembly of claim 1 , wherein the sensor further includes a signal lead extending from the sensor body to outside of the stator assembly. 7 . The stator assembly of claim 6 , wherein the signal lead extends through an inner platform opening in the stator inner platform. 8 . The stator assembly of claim 6 , wherein the signal lead extends along a stator vane surface of the stator vane. 9 . The stator assembly of claim 8 , wherein the signal lead is secured to the stator vane surface via an adhesive. 10 . The stator assembly of claim 6 , wherein: the stator further includes a stator outer platform disposed radially outboard of the stator vane; and the signal lead extends through an outer platform opening in the stator outer platform. 11 . A gas turbine engine comprising: a rotor configured to rotate about an engine central longitudinal axis, the rotor including: a rotor body; and two or more knife edges extending radially outwardly from the rotor body; and a stator assembly disposed radially outboard of the rotor, the stator assembly including: a stator including at least: a stator vane; and a stator inner platform located radially inboard of the stator vane; a stator inner airseal disposed radially inboard of the stator inner platform, the stator inner airseal defining a seal arrangement with the two or more knife edges; and a sensor disposed at the stator inner airseal, the sensor including a sensor body positioned axially between axially adjacent knife edges of the two or more knife edges and configured to detect a radial distance from the sensor to the rotor body; wherein the stator inner airseal includes a seal carrier and a seal element installed into the seal carrier radially inboard of the seal carrier; and wherein the sensor body is disposed radially between the seal element and the seal carrier such that the seal element is disposed radially between the sensor body and the rotating component. 12 . The gas turbine engine of claim 11 , wherein the sensor body is sized and positioned such that the sensor body is configured to be positioned axially between the knife edges during all anticipated operating conditions of the gas turbine engine. 13 . The gas turbine engine of claim 11 , wherein the sensor body is disposed in a trench formed in the stator inner airseal. 14 . The gas turbine engine of claim 11 , wherein the sensor is a capacitance sensor. 15 . The gas turbine engine of claim 11 , wherein the sensor body has a radial thickness in the range of 0.005″ to 0.020″. 16 . The gas turbine engine of claim 11 , wherein the sensor further includes a signal lead extending from the sensor body to outside of the stator assembly. 17 . The gas turbine engine of claim 16 , wherein the signal lead extends through an inner platform opening in the stator inner platform. 18 . The gas turbine engine of claim 16 , wherein the signal lead extends along a stator vane surface of the stator vane. 19 . The gas turbine engine of claim 18 , wherein the signal lead is secured to the stator vane surface via an adhesive. 20 . The gas turbine engine of claim 16 , wherein: the stator further includes a stator outer platform disposed radially outboard of the stator vane; and the signal lead extends through an outer platform opening in the stator outer platform.