Device for controlling resonator light path length

The invention claimed is: 1. A control device comprising: a drive section configured to move, in an optical axis direction, at least one of a plurality of reflecting units in a resonator to change a light path length of the resonator, wherein the resonator converts a wavelength of laser light that enters the resonator by resonating the laser light in one or more of a plurality of modes that satisfy a resonance condition of the laser light; and a control section configured to control the light path length of the resonator based on a detection of reflected light from the resonator, the controlling comprising: causing the drive section to move the at least one reflecting unit to cause the laser light that enters into the resonator to change from a first state in which the laser light resonates in a first mode of the plurality of modes to a second state in which the laser light resonates in a second mode of the plurality of modes different from the first mode. 2. The control device according to claim 1 , wherein the control section is further configured to control the light path length of the resonator based on a level of the detected reflected light. 3. The control device according to claim 1 , wherein causing the drive section to move comprises supplying, to the drive section, a jump pulse for moving the at least one reflecting unit and a brake pulse for stopping the reflecting unit that has moved in response to the jump pulse. 4. The control device according to claim 1 , wherein the control section is further configured to: store position information indicating a position of the at least one reflecting unit, and control the light path length of the resonator based on the stored position information. 5. The control device according to claim 1 , wherein the control section is further configured to control the light path length of the resonator to cause the laser light to resonate in a mode corresponding to a minimum level of the reflected light. 6. The control device according to claim 5 , wherein the control section is configured to: control the light path length of the resonator to cause the laser light to resonate in multiple ones of the plurality of modes, determine a level of the reflected light corresponding to each of the multiple modes, and identify, based on levels of the reflected light corresponding to the multiple modes, the mode corresponding to the minimum level of the reflected light. 7. The control device according to claim 6 , wherein the control section is configured to: control the light path length to change the mode in which the laser light is resonating by a first unit at least larger than a distance between adjacent modes of the plurality of modes to obtain a first set of levels of the reflected light, identify a first mode corresponding to a minimum of the first set of levels of the reflected light, control the light path length to change the mode in which the laser light is resonating by a second unit smaller than the first unit in a vicinity of the first mode corresponding to the minimum of the first set of levels of the reflected light to obtain a second set of levels of the reflected light, and identify the mode corresponding to the minimum level of the reflected light based on the second set of levels of the reflected light. 8. The control device according to claim 1 , wherein the second mode comprises a mode adjacent to the first mode. 9. The control device according to claim 1 , wherein the control section is configured to: servocontrol the light path length so that the light path length of the resonator satisfies a resonance condition corresponding to the second mode, the controlling comprising: stopping changing of the light path length when the laser light has changed from the first state in which the laser light resonates in the first mode to the second state in which the laser light resonates in the second mode; and restarting changing of the light path length when the mode in which the laser light is resonating changes from the second mode. 10. The control device according to claim 1 , wherein the control section is configured to: generate, based on the detection of the reflected light, a difference signal indicating a difference between the light path length of the resonator and a light path length that satisfies a target resonance condition of the laser light, and control the light path length of the resonator based on the generated difference signal. 11. A control method comprising: moving, by a drive section, in an optical axis direction, at least one of a plurality of reflecting units in a resonator to change a light path length of the resonator, wherein the resonator converts a wavelength of laser light that enters the resonator by resonating the laser light in one or more of a plurality of modes that satisfy a resonance condition of the laser light; and controlling, by a processor, the light path length of the resonator based on a detection of reflected light from the resonator, the controlling comprising: causing the drive section to move the at least one reflecting unit to cause the laser light that enters into the resonator to change from a first state in which the laser light resonates in a first mode of the plurality of modes to a second state in which the laser light resonates in a second mode of the plurality of modes different from the first mode. 12. At least one non-transitory computer-readable medium storing instructions, which when executed by at least one computer, cause the at least one computer to perform a method comprising: moving, in an optical axis direction, at least one of a plurality of reflecting units in a resonator to change a light path length of the resonator, wherein the resonator converts a wavelength of laser light that enters the resonator by resonating the laser light in one or more of a plurality of modes that satisfy a resonance condition of the laser light; and controlling the light path length of the resonator based on a detection of reflected light from the resonator, the controlling comprising: moving the at least one reflecting unit to cause the laser light that enters into the resonator to change from a first state in which the laser light resonates in a first mode of the plurality of modes to a second state in which the laser light resonates in a second mode of the plurality of modes different from the first mode.