Inner barrel of an engine inlet with laser-machined acoustic perforations

What is claimed is: 1. A forming system comprising: a femtosecond laser configured to emit laser pulses onto an inner surface of a face sheet of an acoustic inner barrel, the acoustic inner barrel including an acoustic core comprising an array of hexagonal cells attached to an outer surface of the face sheet that is opposite the inner surface; and a control unit comprising one or more processors operatively connected to the femtosecond laser, the control unit configured to control the femtosecond laser to laser drill a plurality of perforations in the face sheet via emitting laser pulses at pulse durations between about 100 femtoseconds and about 10,000 femtoseconds and at frequencies over 100,000 Hz, wherein the control unit is configured to control the femtosecond laser to emit the laser pulses at multiple perforation locations along the face sheet one at a time in a sequence such that a first set of one or more laser pulses is emitted at a first perforation location and then a second set of one or more laser pulses is emitted at a second perforation location, the control unit further configured to control the femtosecond laser to repeat the sequence multiple times to gradually form the perforations at the multiple perforation locations, and wherein the control unit is further configured to control the femtosecond laser to repeat the sequence such that a third set of one or more laser pulses is emitted at the first perforation location subsequent to the second set being emitted at the second perforation location and before a fourth set of one or more laser pulses is emitted at the second perforation location. 2. The forming system of claim 1 , wherein the control unit is configured to control the femtosecond laser to laser drill the perforations through a thickness of the face sheet to an interface between the face sheet and the acoustic core without penetrating the acoustic core. 3. The forming system of claim 1 , wherein the femtosecond laser includes a scanning head, and the control unit is configured to control the scanning head to emit one or more laser pulses at each of multiple perforation locations along the face sheet one at a time in a sequence, and to repeat the sequence multiple times to gradually form the perforations at the perforation locations. 4. The forming system of claim 1 , wherein the femtosecond laser extends at least partially into a cavity defined by the acoustic inner barrel to laser drill the perforations in the face sheet. 5. The forming system of claim 1 , wherein the control unit is configured to control the femtosecond laser to laser drill the perforations in the face sheet in a designated pattern with a predetermined percent-open-area. 6. The forming system of claim 1 , wherein the control unit is configured to control the femtosecond laser to laser drill the perforations in the face sheet to have diameters between about 50 micrometers and about 500 micrometers. 7. The forming system of claim 1 , wherein the acoustic inner barrel has an annular barrel shape, and the forming system further comprises a positioning platform that supports the acoustic inner barrel, the positioning platform including rollers that rotate the acoustic inner barrel relative to the femtosecond laser. 8. The forming system of claim 7 , wherein the acoustic inner barrel is held in a vertical orientation by the positioning platform such that a centerline axis of the acoustic inner barrel is parallel to a horizontal plane of the positioning platform. 9. A forming system comprising: a positioning platform configured to hold an acoustic inner barrel that has an annular barrel shape that defines a cavity, the acoustic inner barrel including a face sheet and an acoustic core; a femtosecond laser held by an effector arm, the effector arm configured to position the femtosecond laser at least partially into the cavity of the acoustic inner barrel that is held by the positioning platform; and a control unit comprising one or more processors operatively connected to the femtosecond laser, the control unit configured to control the femtosecond laser to emit laser pulses onto an inner surface of the face sheet to laser drill perforations in the face sheet, wherein the positioning platform is configured to rotate the acoustic inner barrel about a centerline axis of the acoustic inner barrel, relative to the femtosecond laser, wherein the control unit is configured to control the femtosecond laser to emit the laser pulses at multiple perforation locations along the face sheet one at a time in a sequence such that a first set of one or more laser pulses is emitted at a first perforation location and then a second set of one or more laser pulses is emitted at a second perforation location, the control unit further configured to control the femtosecond laser to repeat the sequence multiple times to gradually form the perforations at the multiple perforation locations, and wherein the control unit is further configured to control the femtosecond laser to repeat the sequence such that a third set of one or more laser pulses is emitted at the first perforation location subsequent to the second set being emitted at the second perforation location and before a fourth set of one or more laser pulses is emitted at the second perforation location. 10. The forming system of claim 9 , wherein the control unit is configured to control the femtosecond laser to emit the laser pulses at pulse durations between about 100 femtoseconds and about 10,000 femtoseconds and at frequencies over 100,000 Hz such that the perforations are formed in the face sheet without burning portions of the face sheet surrounding the perforations. 11. The forming system of claim 9 , wherein the acoustic core comprises an array of hexagonal cells attached to an outer surface of the face sheet that is opposite the inner surface, and the positioning platform includes rollers configured to engage the outer surface of the face sheet to rotate the acoustic inner barrel about the centerline axis. 12. The forming system of claim 9 , wherein the positioning platform is configured to hold the acoustic inner barrel in a vertical orientation such that the centerline axis of the acoustic inner barrel is parallel to a horizontal plane of the positioning platform. 13. The forming system of claim 9 , wherein the control unit is configured to control the femtosecond laser to emit the laser pulses at multiple perforation locations along the face sheet one at a time in a sequence such that a first set of one or more laser pulses is emitted at a first perforation location and then a second set of one or more laser pulses is emitted at a second perforation location, the control unit further configured to control the femtosecond laser to repeat the sequence multiple times to gradually form the perforations at the multiple perforation locations. 14. The forming system of claim 9 , wherein the control unit is configured to control the femtosecond laser to laser drill the perforations in the face sheet to have diameters between about 50 micrometers and about 500 micrometers. 15. A forming system comprising: a femtosecond laser configured to emit laser pulses onto an inner surface of a face sheet of an acoustic inner barrel, the acoustic inner barrel including an acoustic core; and a control unit comprising one or more processors operatively connected to the femtosecond laser, the control unit configured to control the femtosecond laser to emit laser pulses at multiple perforation locations along the inner surface one at a time in a sequence, wherein a first set of the laser pulses is emitted by the