Devices, systems, and methods control pulse energies of excimer and other lasers, particularly for refractive correction in which a pulse rate, pulse energy, or other parameters of a pulsed laser is varied during use. A calibration laser mode may be used to fire a series of laser pulses to character
Devices, systems, and methods control pulse energies of excimer and other lasers, particularly for refractive correction in which a pulse rate, pulse energy, or other parameters of a pulsed laser is varied during use. A calibration laser mode may be used to fire a series of laser pulses to characterize a correlation between laser energy and a laser operation parameter (typically discharge high voltage) throughout a range. During an operation mode, subsequent voltages may be set based on energies of prior pulses while accounting for a curve or change in rate of the correlation.
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1. A method for controlling a pulsed laser, the method comprising: firing the laser to produce a series of laser pulses, each pulse fired by applying an associated voltage of the laser, wherein the laser comprises an excimer laser, and wherein the series of pulses are fired by applying at least four
1. A method for controlling a pulsed laser, the method comprising: firing the laser to produce a series of laser pulses, each pulse fired by applying an associated voltage of the laser, wherein the laser comprises an excimer laser, and wherein the series of pulses are fired by applying at least four differing voltages to the laser while the laser is operating in a calibration mode and prior to transmitting pulses onto a target surface;measuring energies of each laser pulse of the series of laser pulses;generating a correlation between the measured energies of the pulses and the associated voltages of the laser, the correlation defining differing rates of change in pulse energy with changes in voltage;generating a first laser pulse by applying a first voltage to the laser;measuring a first energy of the first pulse;determining a second voltage for the laser so as to generate a second pulse with a desired pulse energy using the correlation and the measured first energy of the first pulse; andfiring the laser by applying the second voltage so as to produce the second pulse;wherein the first and second laser pulses are directed onto the target surface while the laser is in an operating mode, wherein a firing rate of the laser varies while the laser is in the operating mode, and wherein the laser remains in the operating mode for less than about 10 minutes; andwherein the second voltage, Vnew, is calculated from the first voltage, Vold, using a damping factor D and a desired change in energy ΔE between the energy of the first pulse and the desired energy according to an equation: Vnew=Vold+D(ΔE/(2c1Vold+c2))In which generating a correlation comprises identifying constants c1 and c2. 2. The method of claim 1, wherein the correlation comprises a quadratic relationship between a pulse energy E and a discharge high voltage V of the laser of the form E=c1V2+c2V+c3 in which c1, c2, and c3 are constants. 3. The method of claim 1, wherein the second voltage is determined by identifying a desired change in energy ΔE between the energy of the first pulse and the desired energy, and by identifying an appropriate change in voltage from the correlation using the first voltage. 4. The method of claim 1, further comprising damping variations in the voltage according to a damping factor. 5. The method of claim 1 wherein the series of pulses comprises a plurality of pulses at each voltage, and further comprising averaging the pulse energies at each voltage, the correlation being determined using the averaged pulse energies. 6. The method of claim 1, wherein the target surface is disposed on a corneal tissue, the operating mode effecting resculpting of the corneal tissue so as to alter optical characteristics of the eye, and wherein the laser is operated in the calibration mode prior to treatment of each of a plurality of patients.
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