Serial servo system and method for controlling an optical path length and a repetition frequency of a mode-locked laser

What is claimed is: 1. A serial servo system for monitoring and controlling an optical path length, the serial servo system comprising: a first controller configured to receive an error signal and generate a first drive signal in response to the error signal, the error signal configured to vary in response to variation of the optical path length; a first driver configured to receive the first drive signal and adjust the optical path length with an electro-optic modulator in response to the first drive signal; a second controller configured to receive the first drive signal and generate a second drive signal in response to the first drive signal; and a second driver configured to receive the second drive signal and adjust the optical path length with a piezo-electric transducer in response to the second drive signal; wherein the piezo-electric transducer responds more slowly than the electro-optic modulator and has a greater stroke than the electro-optic modulator. 2. A serial servo system of claim 1 , further for monitoring and controlling a physical property, the serial servo system comprising: a first controller configured to receive an error signal and generate a first drive signal in response to the error signal, the error signal configured to vary in response to variation of the physical property; a first driver configured to receive the first drive signal and adjust the physical property in response to the first drive signal, the first driver configured to adjust the physical property with a first device having a first stroke; a second controller configured to receive the first drive signal and generate a second drive signal in response to the first drive signal; a second driver configured to receive the second drive signal and adjust the physical property in response to the second drive signal, the second driver configured to adjust the physical property so that the first device operates at or near a first specified setpoint within the first stroke; a third controller configured to receive the second drive signal and generate a third drive signal in response to the second drive signal; and a third driver configured to receive the third drive signal and adjust the physical property in response to the third drive signal. 3. The serial servo system of claim 2 , wherein the first, second, and third drivers adjust the physical property via different mechanisms. 4. The serial servo system of claim 2 , wherein the physical property is an optical path length; wherein the second driver adjusts the optical path length with a piezo-electric transducer; and wherein the third driver adjusts the optical path length with a heater. 5. The serial servo system of claim 4 , wherein the third controller generates the third drive signal to keep the piezo-electric transducer at or near an operational midpoint of its stroke. 6. The serial servo system of claim 4 , wherein the third controller generates the third drive signal to keep the piezo-electric transducer at or near a specified setpoint that is offset from an operational midpoint of its stroke. 7. A serial servo system for monitoring and controlling an optical path length, the serial servo system comprising: a first controller configured to receive an error signal and generate a first drive signal in response to the error signal, the error signal configured to vary in response to variation of the optical path length; a first driver configured to receive the first drive signal and adjust the optical path length in response to the first drive signal; a second controller configured to receive the first drive signal and generate a second drive signal in response to the first drive signal; a second driver configured to receive the second drive signal and adjust the optical path length with a piezo-electric transducer in response to the second drive signal; a third controller configured to receive the second drive signal and generate a third drive signal in response to the second drive signal; and a third driver configured to receive the third drive signal and adjust the optical path length with a heater in response to the third drive signal; wherein the heater responds more slowly than the piezo-electric transducer and has a greater stroke than the piezo-electric transducer. 8. A serial servo system for stabilizing a pulsed laser, the pulsed laser including an optical path having an optical path length, the serial servo system comprising: an electro-optic modulator controller configured to receive a phase error signal and generate an electro-optic modulator drive signal in response to the phase error signal, the phase error signal configured to vary in response to variation of the optical path length; an electro-optic modulator driver configured to receive the electro-optic modulator drive signal and adjust the optical path length with an electro-optic modulator in response to the electro-optic modulator drive signal; a piezo-electric transducer controller configured to receive the electro-optic modulator drive signal and generate a piezo-electric transducer drive signal in response to the electro-optic modulator drive signal, the piezo-electric transducer controller configured to generate the piezo-electric transducer drive signal to keep the electro-optic modulator driver at or near a specified setpoint within its stroke; a piezo-electric transducer driver configured to receive the piezo-electric transducer drive signal and adjust the optical path length with a piezo-electric transducer in response to the piezo-electric transducer drive signal; a temperature controller configured to receive piezo-electric transducer drive signal and generate a temperature drive signal in response to the piezo-electric transducer drive signal; a temperature driver configured to receive the temperature drive signal and adjust the optical path length with a heater in response to the temperature drive signal. 9. The serial servo system of claim 8 , wherein the piezo-electric transducer controller generates the piezo-electric transducer drive signal to keep the electro-optic modulator at or near an operational midpoint of its stroke. 10. The serial servo system of claim 8 , wherein the piezo-electric transducer controller generates the piezo-electric transducer drive signal to keep the electro-optic modulator at or near a specified setpoint that is offset from an operational midpoint of its stroke. 11. The serial servo system of claim 8 , wherein the temperature controller generates the temperature drive signal to keep the piezo-electric transducer at or near an operational midpoint of its stroke. 12. The serial servo system of claim 8 , wherein the temperature controller generates the temperature drive signal to keep the piezo-electric transducer at or near a specified setpoint that is offset from an operational midpoint of its stroke. 13. A serial servo system for stabilizing a pulsed laser, the pulsed laser including an optical path having an optical path length, the serial servo system comprising: an electro-optic modulator controller configured to receive a phase error signal and generate an electro-optic modulator drive signal in response to the phase error signal, the phase error signal configured to vary in response to variation of the optical path length; an electro-optic modulator driver configured to receive the electro-optic modulator drive signal and adjust the optical path length with an electro-optic modulator in response to the electro-optic modulator drive signal; a piezo-electric transducer controller configured to receive the electro-optic modulator drive signal and generate a piezo-electric