Fiber laser system, reflection resistance evaluation method and reflection resistance improvement method for same, and fiber laser

1 . A fiber laser system, comprising: a plurality of fiber lasers, each of the plurality of fiber lasers including a laser beam measuring section, a Stokes beam measuring section, a low reflection mirror, and a high reflection mirror, the laser beam measuring section being configured to measure a power of a laser beam which the low reflection mirror has transmitted therethrough, the Stokes beam measuring section being configured to measure a power of a Stokes beam which the high reflection mirror has transmitted therethrough, and a calculation section configured to calculate, for each of the plurality of fiber lasers, a ratio of (i) the power of the Stokes beam which the high reflection mirror has transmitted therethrough to (ii) the power of the laser beam which the low reflection mirror has transmitted therethrough, based on a result of measurement made by the laser beam measuring section and a result of measurement made by the Stokes beam measuring section. 2 . The fiber laser system as set forth in claim 1 , wherein: the laser beam measuring section includes a first wavelength selecting filter which selectively transmits therethrough light having a lasing wavelength of a corresponding one of the plurality of fiber lasers; and the Stokes beam measuring section includes a second wavelength selecting filter which selectively transmits therethrough light having a wavelength which is obtained by adding, to the lasing wavelength of the corresponding one of the plurality of fiber lasers, a wavelength corresponding to a Raman shift. 3 . (canceled) 4 . The fiber laser system as set forth in claim 1 , further comprising: a control section configured to reduce a maximum value of the ratio in each of the plurality of fiber lasers, by (i) selecting, from the plurality of the fiber lasers, at least one fiber laser including a fiber laser in which the ratio is the largest and (ii) carrying out power down control in which a power of a laser beam which is emitted from the at least one fiber laser selected from the plurality of fiber lasers is reduced. 5 . The fiber laser system as set forth in claim 4 , wherein: the control section reduces a difference between the ratio as to the at least one fiber laser thus selected and a ratio as to an unselected fiber laser, by (i) carrying out the power down control or (ii) carrying out both of (a) power up control in which a power of a laser beam which is emitted from the unselected fiber laser is increased and (b) the power down control. 6 . The fiber laser system as set forth in claim 4 , wherein: the control section selects a fiber laser in which the ratio exceeds a predetermined ratio, from the plurality of fiber lasers, as a target for which a power of a laser beam is to be reduced. 7 . A method of evaluating a reflection resistance of each of a plurality of fiber lasers in a fiber laser system, the method comprising the steps of: (a) measuring a first power of a laser beam which the low reflection mirror of each of the plurality of fiber lasers has transmitted therethrough; (b) measuring a second power of a Stokes beam which the high reflection mirror of the each of the plurality of fiber lasers has transmitted therethrough; and (c) calculating, for each of the plurality of fiber lasers, a ratio of the second power to the first power, based on a result of measurement made in the step (a) and a result of measurement made in the step (b). 8 . A method of improving a reflection resistance of a fiber laser system which includes a plurality of fiber lasers, the method comprising the steps of: (a) calculating, for each of the plurality of fiber lasers, the ratio in accordance with the method as set forth in claim 7 ; and (b) reducing a maximum value of the ratio in each of the plurality of fiber lasers, by (i) selecting, from the plurality of fiber lasers, at least one fiber laser including a fiber laser in which the ratio is the largest and (ii) carrying out power down control in which a power of a laser beam which is emitted from the at least one fiber laser selected from the plurality of fiber lasers is reduced. 9 . A fiber laser, comprising: an amplifying optical fiber; a low reflection mirror provided at one end of the amplifying optical fiber; a high reflection mirror provided at the other end of the amplifying optical fiber; a laser beam measuring section configured to measure a power of a laser beam which the low reflection mirror has transmitted therethrough; a Stokes beam measuring section configured to measure a power of a Stokes beam which the high reflection mirror has transmitted therethrough; and a calculation section configured to calculate a ratio of (i) the power of the Stokes beam which the high reflection mirror has transmitted therethrough to (ii) the power of the laser beam which the low reflection mirror has transmitted therethrough, based on a result of measurement made by the laser beam measuring section and a result of measurement made by the Stokes beam measuring section. 10 . (canceled) 11 . A method of evaluating a reflection resistance of a fiber laser, comprising the steps of: (a) measuring a first power of a laser beam which a low reflection mirror of the fiber laser has transmitted therethrough; (b) measuring a second power of a Stokes beam which a high reflection mirror of the fiber laser has transmitted therethrough; and (c) calculating a ratio of the second power to the first power, based on a result of measurement made in the step (a) and a result of measurement made in the step (b).