Fuel nozzle with increased spray angle range

The invention claimed is: 1. A gas turbine engine fuel nozzle comprising: a spray tip defining a fuel exit passage therethrough that extends along a central axis, the fuel exit passage having an exit orifice aligned with the central axis, the exit orifice being circumscribed by an inner annular surface, the inner annular surface expanding in diameter in a downstream direction relative to a fuel flow direction through the fuel nozzle, the inner annular surface having a spherically-convex profile at a cross-section thereof, the cross-section taken on a plane containing the central axis, the inner annular surface having a length (L 2 ) extending axially from a first point where a diameter of the fuel exit passage starts to increase to a second axially spaced-apart point corresponding to a downstream edge of the inner annular surface where fuel exits the exit orifice, a radius of curvature (R) of the inner annular surface at the cross-section being constant along the full extent of the length (L 2 ), the spherically-convex profile being constant around the circumference of the inner annular surface, the fuel exit passage having a cylindrical portion ending at the first point, the inner annular surface projecting axially from the cylindrical portion, the cylindrical portion and the exit orifice being coaxial, wherein the cylindrical portion has a length (L 1 ) ending where the diameter of the fuel exit passage starts to increase, and wherein a ratio L 2 /L 1 is comprised between about 0.15 to about 0.5. 2. The gas turbine engine fuel nozzle defined in claim 1 , wherein the inner annular surface is symmetric relative to the central axis. 3. The gas turbine engine fuel nozzle defined in claim 1 , wherein the radius of curvature (R) ranges from about 0.010″ to about 0.030″. 4. The gas turbine engine fuel nozzle defined in claim 1 , further comprising a primary fuel chamber upstream of the fuel exit passage, and a swirler for imparting a swirl to the incoming flow of fuel, the primary fuel chamber being in fluid flow communication with the fuel exit passage. 5. The gas turbine engine fuel nozzle defined in claim 1 , wherein the fuel nozzle is a pressure atomizing fuel nozzle or an air blast fuel nozzle, and wherein the spray tip is a primary fuel nozzle tip. 6. The gas turbine engine fuel nozzle defined in claim 5 , further comprising a secondary fuel nozzle, the secondary fuel nozzle including an outer lip which curves away from the central axis in a downstream direction relative to an incoming flow of a secondary fuel. 7. The gas turbine engine fuel nozzle defined in claim 1 , wherein the cylindrical portion and the exit orifice are polished to provide for a smooth flow guiding surface along the fuel exit passage. 8. A gas turbine engine fuel nozzle comprising: a spray tip defining a fuel exit passage therethrough that extends along a central axis, the fuel exit passage having an exit orifice aligned with the central axis, the exit orifice being circumscribed by an inner annular surface, the inner annular surface expanding in diameter in a downstream direction relative to a fuel flow direction through the fuel nozzle, the inner annular surface having a spherically-convex profile at a cross-section thereof, the cross-section taken on a plane containing the central axis, the inner annular surface having a length (L 2 ) extending axially from a first point where a diameter of the fuel exit passage starts to increase to a second axially spaced-apart point corresponding to a downstream edge of the inner annular surface where fuel exits the exit orifice, the spherically-convex profile being constant around the circumference of the inner annular surface, wherein the fuel exit passage has a cylindrical portion upstream of the exit orifice, the cylindrical portion and the exit orifice being coaxial, the inner annular surface projecting axially from the cylindrical portion and wherein the cylindrical portion has a length (L 1 ) ending where the diameter of the fuel exit passage starts to increase, and wherein a ratio L 2 /L 1 is comprised between about 0.15 to about 0.5.