Laser device

The invention claimed is: 1. A laser device comprising: a laser resonator configured to emit a laser beam; a condenser lens configured to collect the laser beam emitted from the laser resonator; an optical fiber configured to transmit the laser beam collected by the condenser lens; at least one light sensor opposing a light receiving surface of the condenser lens and outside an optical path of the laser beam, the at least one light sensor being configured to detect an amount of return light from the condenser lens and the optical fiber; a power supply configured to supply laser oscillation power to the laser resonator; and a controller, wherein the laser device is configured to: reflect a part of the laser beam from the condenser lens; lead a light reflected from the condenser lens to the at least one light sensor and detect the light as the return light from the condenser lens by the at least one light sensor; reflect a part of the laser beam from the optical fiber; and lead a light reflected from the optical fiber to the at least one light sensor via the condenser lens and detect the light as the return light from the optical fiber by the at least one light sensor, and wherein the controller is configured to: determine a presence of a first abnormality when a value of the amount detected by the at least one light sensor is greater than a predetermined maximum threshold; and cause, in response to determination of the presence of the first abnormality, the power supply to shut down supplying the laser oscillation power to the laser resonator, and wherein the controller is further configured to: determine a presence of a second abnormality when the value of the amount detected by the at least one light sensor is smaller than a predetermined minimum threshold; and cause, in response to determination of the presence of the second abnormality, the power supply to shut down supplying the laser oscillation power to the laser resonator. 2. The laser device according to claim 1 , wherein the at least one light sensor has a light-receiving surface for receiving the return light, the light-receiving surface facing a central portion of the condenser lens. 3. The laser device according to claim 2 , wherein the at least one light sensor has a central axis perpendicular to the light-receiving surface, the central axis of the at least one light sensor crossing a central axis of the condenser lens at a center point of the condenser lens. 4. The laser device according to claim 1 , wherein the at least one light sensor comprises a plurality of light sensors. 5. The laser device according to claim 1 , wherein the controller is configured to control the power supply such that the value of the amount detected by the at least one light sensor is individually constant.