Fiber laser system and method of outputting laser beam

The invention claimed is: 1. A fiber laser system comprising: a plurality of fiber laser units including respective excitation light sources, a power of each of a plurality of laser beams outputted from the respective plurality of fiber laser units rising, then reaching a peak, and then decreasing to a steady level; a combiner for combining the respective plurality of laser beams outputted from the plurality of fiber laser units; a plurality of current sources provided so as to correspond to the respective plurality of fiber laser units such that the plurality of current sources supply respective driving currents to corresponding ones of the excitation light sources; and a control section for controlling the plurality of current sources so that respective powers of laser beams outputted from at least two fiber laser units of the plurality of fiber laser units (i) reach the peak at respective different times and (ii) are combined at least in a period during which the powers are at the steady level. 2. The fiber laser system as set forth in claim 1 , wherein: respective powers of the plurality of laser beams are converged onto a steady level after the peaks appear; and the certain time is equal to or greater than a time (T 4 ) which is a length of time between (A) a time point at which a first power having risen reaches a first steady level and (B) a time point at which the first power having reached a first peak attenuates to reach the first steady level again, where (i) the first peak is a peak appearing earlier of two peaks that appear at respective times as a result of the plurality of laser beams being outputted, (ii) the first power is a power of a laser beam having the first peak, and (iii) the first steady level is a steady level onto which the first power is converged. 3. The fiber laser system as set forth in claim 1 , wherein the control section controls the plurality of current sources so that there are time intervals of a certain time between peaks appearing in a case where respective powers of laser beams outputted from all of the plurality of fiber laser units rise. 4. The fiber laser system as set forth in claim 1 , wherein the control section controls the plurality of current sources so that there are time intervals of a certain time between supplying start times at which the plurality of current sources start supplying the respective driving currents to the corresponding ones of the excitation light sources. 5. A fiber laser system comprising: a plurality of fiber laser units including respective excitation light sources, a power of each of a plurality of laser beams outputted from the respective plurality of fiber laser units rising, then reaching a peak, and then decreasing to a steady level; a combiner for combining respective plurality of laser beams outputted from the plurality of fiber laser units; a plurality of current sources provided so as to correspond to the respective plurality of fiber laser units such that the plurality of current sources supply respective driving currents to corresponding ones of the excitation light sources; and a control section for controlling the plurality of current sources so that respective powers of laser beams outputted from at least two fiber laser units of the plurality of fiber laser units (i) reach the peak at respective different times and (ii) are combined at least in a period during which the powers are at the steady level, the at least two fiber laser units including (i) a first fiber laser unit having a reflection resistance for restricting stimulated Raman scattering and (ii) a second fiber laser unit having a reflection resistance lower than the reflection resistance of the first fiber laser unit, and the control section controlling the plurality of current sources so that the first fiber laser unit is caused to output a laser beam earlier than the second fiber laser unit by causing an excitation light source of the first fiber laser unit to start receiving a driving current before an excitation light source of the second fiber laser unit starts receiving a driving current. 6. A fiber laser system comprising: a plurality of fiber laser units including respective excitation light sources, a power of each of a plurality of laser beams outputted from the respective plurality of fiber laser units rising, then reaching a peak, and then decreasing to a steady level; a combiner for combining respective plurality of laser beams outputted from the plurality of fiber laser units; a plurality of current sources provided so as to correspond to the respective plurality of fiber laser units such that the plurality of current sources supply respective driving currents to corresponding ones of the excitation light sources; and a control section for controlling the plurality of current sources so that respective powers of laser beams outputted from at least two fiber laser units of the plurality of fiber laser units (i) reach the peak at respective different times and (ii) are combined at least in a period during which the powers are at the steady level, the at least two fiber laser units including (i) a first fiber laser unit and (ii) a second fiber laser unit having a reflection resistance lower than a reflection resistance of the first fiber laser unit, and the control section turning on the first fiber laser unit and the second fiber laser unit so that a peak, which appears in a case where a power of a laser beam outputted from the first fiber laser unit rises, appears earlier than a peak which appears in a case where a power of a laser beam outputted from the second fiber laser unit rises. 7. A fiber laser system comprising: a plurality of fiber laser units including respective excitation light sources, a power of each of a plurality of laser beams outputted from the respective plurality of fiber laser units rising, then reaching a peak, and then decreasing to a steady level; a combiner for combining respective plurality of laser beams outputted from the plurality of fiber laser units; a plurality of current sources provided so as to correspond to the respective plurality of fiber laser units such that the plurality of current sources supply respective driving currents to corresponding ones of the excitation light sources; and a control section for controlling the plurality of current sources so that respective powers of laser beams outputted from at least two fiber laser units of the plurality of fiber laser units (i) reach the peak at respective different times and (ii) are combined at least in a period during which the powers are at the steady level, the control section turning on the at least two fiber laser units so that peaks, which appear in a case where the respective powers of the laser beams outputted from at least two fiber laser units rise, appear in an order decided in advance. 8. A method of outputting a laser beam in which the laser beam is obtained by driving a plurality of fiber laser units to output respective plurality of laser beams and by combining the plurality of laser beams together, a power of each of a plurality of laser beams outputted from the respective plurality of fiber laser units rising, then reaching a peak, and then decreasing to a steady level, the method comprising the step of: driving at least two fiber laser units of the plurality of fiber laser units so that respective powers of laser beams outputted from the at least two fiber laser units (i) reach the peak at respective different times and (ii) are combined at least in a period during which the powers are at the steady level. 9. A method of outputting a laser beam in which the laser beam is obtained by driving a plurality of fiber laser units to output respective plu