Stator heat transfer feature

1 . A dynamoelectric machine comprising: a shaft; a rotor radially outward from the shaft, the rotor and shaft arranged to rotate in unison; a stator radially outward from the rotor, the stator being stationary relative to the rotor and shaft; and a heat transfer feature adjacent to and radially outward from the stator, the heat transfer feature having a base encasing the stator and fins extending radially outward from the base with a configuration selected from a group consisting of i) the fins extend along an axial length that is less than a total axial length of the base, ii) the fins extend at least partially in a circumferential direction, and combinations of i) and ii). 2 . The dynamoelectric machine of claim 1 , further comprising: a housing radially outward from the heat transfer feature. 3 . The dynamoelectric machine of claim 2 , further comprising: a fluid inlet in the housing that allows a fluid to enter a gap between the heat transfer feature and the housing; and a fluid outlet in the housing that allows the fluid to exit the gap. 4 . The dynamoelectric machine of claim 1 , further comprising: a header that fluidically isolates the heat transfer feature and the housing from the shaft, the rotor, and the stator. 5 . The dynamoelectric machine of claim 1 , further comprising: an interface layer between the stator and the heat transfer feature, the interface layer fluidically separating the stator from the heat transfer feature. 6 . The dynamoelectric machine of claim 1 , wherein the stator is a lamination stack. 7 . The dynamoelectric machine of claim 1 , further comprising: a cooling lubricant adjacent to the heat transfer feature. 8 . The dynamoelectric machine of claim 7 , wherein the heat transfer feature fluidically isolates the stator from the cooling lubricant. 9 . The dynamoelectric machine of claim 1 , wherein each fin extends axially along the base for one-tenth or less of a total axial length of the base. 10 . The dynamoelectric machine of claim 1 , wherein each fin extends axially along the base in a wavy pattern. 11 . A stationary member in a dynamoelectric machine comprising: a stator having an annular back iron and a plurality of teeth extending radially inward from the back iron; a plurality of windings wrapped around each of the plurality of teeth; a heat transfer feature on a radially outer side of the back iron, the heat transfer feature comprising: a base adjacent the back iron; fins extending radially outward from the base; and a channel formed by the fins, the channel extending at least partially in an axial direction and partially in a circumferential direction. 12 . The stationary member of claim 11 , wherein at least one fin has a different amount of surface area than another fin. 13 . The stationary member of claim 11 , wherein axially adjacent fins are clocked in the axial direction to be circumferentially offset. 14 . The stationary member of claim 11 , wherein circumferentially adjacent fins extend parallel to one another at an angle at least partially in the axial direction and at least partially in the circumferential direction. 15 . The stationary member of claim 11 , wherein each fin extends axially along the base in a wavy pattern.