Fiber-coupled laser with time varying beam characteristics

The invention claimed is: 1. An optical beam delivery system, comprising: an optical input to receive an optical beam; one or more lengths of fiber between the optical input and an optical output, wherein at least one of the lengths of fiber comprises a confinement region that is optically coupled to the output; a perturbation device to modify, through action upon at least one of the one or more lengths of fiber, one or more beam characteristics of the optical beam conveyed by the confinement region to the output; and a controller coupled to the perturbation device, wherein the controller is to control the perturbation device to vary the one or more beam characteristics about a first target value according to a periodic function having a predetermined amplitude and predetermined frequency during a first period of time that the optical beam is received, and wherein the controller is to control the perturbation device to vary the one or more beam characteristics toward a second target value during a second period of time based on a comparison between the periodic function and a feedback signal indicative of a response external of the beam delivery system that is associated with a process to which the beam is to be applied. 2. The beam delivery system of claim 1 , further comprising the process monitor to output the feedback signal to the controller, wherein the response external of the delivery system is indicative of a process metric. 3. The beam delivery system of claim 2 , wherein the process monitor comprises at least one of an acoustic sensor, an optical sensor, or a thermal sensor. 4. The beam delivery system of claim 2 , wherein: the controller is to control the perturbation device to vary the one or more beam characteristics about the second target value according to the periodic function during a third period of time that the optical beam is received; and the controller is to control the perturbation device to vary the one or more beam characteristics toward a third target value during a fourth period of time based on a further comparison between the periodic function and the feedback signal. 5. The beam delivery system of claim 1 , wherein the perturbation device is to modify the one or more beam characteristics in response to a modulation signal received from the controller, and the controller is to determine a correlation between the feedback signal and the modulation signal based on the comparison between the periodic function and the feedback signal. 6. The beam delivery system of claim 5 , wherein the controller comprises a lock-in amplifier to compare the feedback signal with the modulation signal, and wherein the controller is to control the perturbation device to vary the one or more beam characteristics toward the second target value in response to a change in the feedback signal associated with a variation in a workpiece to which the beam is to be applied. 7. The beam delivery system of claim 1 , wherein the one or more beam characteristics comprise beam diameter, spatial profile, divergence distribution, beam parameter product, intensity distribution, luminance, optical intensity, power density, radiance, radial beam position, or any combination thereof. 8. The beam delivery system of claim 1 , wherein the action upon the one or more lengths of fiber alters a coupling of the optical beam between a first length of the fiber and a confinement region of a second length of fiber. 9. The beam delivery system of claim 8 , wherein: the one or more lengths of fiber further comprise a first length of fiber end-coupled with a second length of fiber; and the first length of fiber has a first refractive index profile (RIP) and the second length of fiber has a second RIP. 10. The beam delivery system of claim 8 , wherein: the first length of fiber or the second length of fiber or a combination thereof includes at least one divergence structure configured to modify a divergence profile of the optical beam and wherein the divergence structure comprises a first material having a lower index of refraction than a second material encompassing the divergence structure. 11. The beam delivery system of claim 1 , wherein the predetermined frequency is sufficiently high relative to the first time period for the controller to time average the beam characteristics over the first time period through the control of the perturbation device. 12. The beam delivery system of claim 1 , wherein the predetermined amplitude is smaller than a difference between the first and second target values.