Fluidic oscillator array for synchronized oscillating jet generation

What is claimed as new and desired to be secured by Letters Patent of the United States is: 1. A fluidic oscillator array, comprising: a plurality of fluidic-oscillator main flow channels, each of said main flow channels having an inlet and an outlet wherein a fluid flow is adapted to enter at said inlet and exit at said outlet, each of said main flow channels having a first control port and a second control port disposed at opposing sides thereof, and each of said main flow channels having a first feedback port and a second feedback port disposed at said opposing sides thereof wherein (i) said first control port and said first feedback port are located on a first of said opposing sides, (ii) said second control port and said second feedback port are located on a second of said opposing sides, and (iii) said first feedback port and said second feedback port are located downstream of said first control port and said second control port, respectively, with respect to a direction of said fluid flow; a first feedback accumulator in fluid communication with each said first control port and each said first feedback port; and a second feedback accumulator in fluid communication with each said second control port and each said second feedback port. 2. A fluidic oscillator array as in claim 1 , further comprising a common plenum in fluid communication with each said inlet. 3. A fluidic oscillator array as in claim 1 , further comprising a plurality of plenums in correspondence with said plurality of main flow channels wherein each of said plenums is in fluid communication with a unique one said inlet. 4. A fluidic oscillator array as in claim 1 , wherein said array comprises a layered construction, and wherein said main flow channels are disposed on a first layer of said layered construction, said first feedback accumulator is disposed on a second layer of said layered construction, and said second feedback accumulator is disposed on a third layer of said layered construction. 5. A fluidic oscillator array as in claim 1 , wherein each said outlet is one of a linear array of outlets. 6. A fluidic oscillator array as in claim 1 , wherein each said outlet is one of a non-linear array of outlets. 7. A fluidic oscillator array as in claim 1 , wherein each said outlet is one of a two-dimensional array of outlets. 8. A fluidic oscillator array as in claim 1 , wherein each said outlet is one of a three-dimensional array of outlets. 9. A multi-layer fluidic oscillator array, comprising: a first layer defining a plurality of fluidic-oscillator main flow channels, each of said main flow channels having an inlet and an outlet wherein a fluid flow is adapted to enter at said inlet and exit at said outlet, each of said main flow channels having a first control port and a second control port disposed at opposing sides thereof, and each of said main flow channels having a first feedback port and a second feedback port disposed at opposing sides thereof wherein said first feedback port and said second feedback port are located downstream of said first control port and said second control port, respectively, with respect to a direction of said fluid flow; a second layer defining a first feedback accumulator in fluid communication with each said first control port and each said first feedback port; a third layer defining a second feedback accumulator in fluid communication with each said second control port and each said second feedback port; a first set of coupling channels formed between said first layer and said second layer for placing said first feedback accumulator in fluid communication with each said first control port and each said first feedback port; and a second set of coupling channels formed between said first layer and said third layer for placing said second feedback accumulator in fluid communication with each said first control port and each said first feedback port. 10. A multi-layer fluidic oscillator array as in claim 9 , wherein said first layer is disposed between said second layer and said third layer. 11. A fluidic oscillator array as in claim 9 , further comprising a common plenum defined in said first layer and in fluid communication with each said inlet. 12. A fluidic oscillator array as in claim 9 , further comprising a plurality of plenums in correspondence with said plurality of main flow channels wherein each of said plenums is defined in said first layer and is in fluid communication with a unique one said inlet. 13. A fluidic oscillator array as in claim 9 , wherein each said outlet is one of a linear array of outlets. 14. A fluidic oscillator array as in claim 9 , wherein each said outlet is one of a non-linear array of outlets.