Vortex generator arrangement for an aircraft

The invention claimed is: 1. A vortex generator arrangement comprising: a section that defines an opening to a corresponding cavity; an aircraft airflow modification device disposed within the cavity; and at least one fluidic muscle actuator arrangement coupled to the airflow modification device, wherein the aircraft airflow modification device comprises: a resiliently deformable flap member, and a resiliently deformable base member, wherein the resiliently deformable flap member of the aircraft airflow modification device in a first state extends through the opening when the resiliently deformable base member is in a corresponding first state; wherein the resiliently deformable flap member of the aircraft airflow modification device in a second state is retracted from the opening when the resiliently deformable base member is in a corresponding second state; and wherein the fluidic muscle actuator arrangement is configured to apply a force to the resiliently deformable base member of the aircraft airflow modification device to deform the base member from a first state to second state or vice versa. 2. The vortex generator arrangement of claim 1 , wherein the first state of the resiliently deformable flap member and the corresponding first state of the resiliently deformable base member are unbuckled states. 3. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement is configured to provide a force substantially in a direction of a lateral axis of the resiliently deformable base member. 4. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement further comprises at least one coupling configured to offset the fluidic muscle actuator arrangement at a distance from the airflow modification device. 5. The vortex generator arrangement according to claim 4 , wherein the distance is approximately 10 mm. 6. The vortex generator arrangement according to claim 4 , wherein the fluidic muscle actuator arrangement is configured to be pivotably connected to the coupling. 7. The vortex generator arrangement according to claim 4 , wherein a body of the coupling is configured to extend in a substantially perpendicular direction from the airflow modification device. 8. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement is pneumatically driven. 9. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement is hydraulically driven. 10. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement is configured to operate within a pressure range of 0 Pa to +600000 Pa relative to an ambient pressure. 11. The vortex generator arrangement according to claim 1 , wherein the fluidic muscle actuator arrangement is configured with an extended length of approximately 60 mm. 12. The vortex generator arrangement according to claim 1 , wherein elastic strain energy stored by the fluidic muscle actuator arrangement and the resiliently deformable base member is sufficient to deploy the airflow modification device. 13. The vortex generator arrangement according to claim 1 , wherein elastic strain energy stored by the fluidic muscle actuator arrangement is sufficient to deploy the airflow modification device. 14. An aircraft with at least one vortex generator arrangement according to claim 1 .