Drag reduction systems for aircraft

The invention claimed is: 1. A drag reduction system for an aircraft, the drag reduction system comprising: a first vortex generator fixed on a portion of the aircraft, wherein the first vortex generator is static and immovable in relation to the portion of the aircraft; and a second vortex generator fixed on the portion of the aircraft, wherein the second vortex generator is static and immovable in relation to the portion of the aircraft, the first vortex generator associated with the second vortex generator, wherein the first vortex generator and the second vortex generator are asymmetrical to one another in relation to a coupling axis, wherein the coupling axis is a center line of the aircraft, and wherein the first and second vortex generators are equidistant from the coupling axis. 2. The drag reduction system of claim 1 , wherein the portion of the aircraft comprises a vertical stabilizer. 3. The drag reduction system of claim 2 , wherein the first vortex generator extends from one of a port side or a starboard side of the vertical stabilizer, the second vortex generator extends from the other of the port side or the starboard side of the vertical stabilizer, and wherein a root of the vertical stabilizer comprises the coupling axis. 4. The drag reduction system of claim 1 , wherein a first angle at which the first vortex generator is oriented in relation to the coupling axis differs from a second angle at which the second vortex generator is oriented in relation to the coupling axis. 5. The drag reduction system of claim 1 , wherein a first length of the first vortex generator differs from a second length of the second vortex generator. 6. The drag reduction system of claim 1 , wherein the first vortex generator is longitudinally offset from the second vortex generator. 7. The drag reduction system of claim 6 , wherein the first vortex generator and the second vortex generator are proximate to a common fuselage station of the aircraft. 8. The drag reduction system of claim 1 , wherein a first spanwise distance to the coupling axis of a portion of the first vortex generator differs from a second spanwise distance to the coupling axis of a corresponding portion of the second vortex generator. 9. The drag reduction system of claim 8 , wherein a portion of the first vortex generator is further fore or aft than at least a corresponding portion of the second vortex generator. 10. The drag reduction system of claim 1 , wherein a leading edge of one of the first vortex generator or the second vortex generator is longitudinally aligned with an intermediate portion of the other of the first vortex generator or the second vortex generator. 11. The drag reduction system of claim 1 , wherein an asymmetry between the first vortex generator and the second vortex generator in relation to the coupling axis is formed by two or more of the following: a first angle at which the first vortex generator is oriented in relation to the coupling axis differing from a second angle at which the second vortex generator is oriented in relation to the coupling axis, a first length of the first vortex generator differing from a second length of the second vortex generator, or the first vortex generator being longitudinally offset from the second vortex generator. 12. The drag reduction system of claim 1 , wherein a first angle at which the first vortex generator is oriented in relation to the coupling axis differs from a second angle at which the second vortex generator is oriented in relation to the coupling axis, wherein a first length of the first vortex generator differs from a second length of the second generator vortex, and wherein the first vortex generator is longitudinally offset from the second vortex generator. 13. A drag reduction method for an aircraft, the drag reduction method comprising: fixing a first vortex generator on a portion of the aircraft, wherein the first vortex generator is static and immovable in relation to the portion of the aircraft; fixing a second vortex generator that is associated with the first vortex generator on the portion of the aircraft, wherein the second vortex generator is static and immovable in relation to the portion of the aircraft; and forming an asymmetry between the first vortex generator and the second vortex generator in relation to a coupling axis, wherein the coupling axis is a center line of the aircraft, and wherein the first and second vortex generators are equidistant from the coupling axis. 14. The drag reduction method of claim 13 , wherein the forming the asymmetry comprises orienting the first vortex generator at a first angle in relation to the coupling axis that differs from a second angle at which the second vortex generator is oriented in relation to the coupling axis. 15. The drag reduction method of claim 13 , wherein the forming the asymmetry comprises differing a first length of the first vortex generator from a second length of the second vortex generator. 16. The drag reduction method of claim 13 , wherein the forming the asymmetry comprises longitudinally offsetting the first vortex generator from the second vortex generator. 17. The drag reduction method of claim 13 , wherein the portion of the aircraft comprises a vertical stabilizer. 18. The drag reduction method of claim 17 , wherein the first vortex generator extends from one of a port side or a starboard side of the vertical stabilizer, the second vortex generator extends from the other of the port side or the starboard side of the vertical stabilizer, and wherein a root of the vertical stabilizer comprises the coupling axis. 19. The drag reduction method of claim 13 , wherein the first vortex generator and the second vortex generator are proximate to a common fuselage station of the aircraft. 20. The drag reduction method of claim 13 , wherein a first spanwise distance to the coupling axis of a portion of the first vortex generator differs from a second spanwise distance to the coupling axis of a corresponding portion of the second vortex generator.