Gas laser device

摘要

A tri-axially orthogonal gas laser device in which an optical axis of an optical resonator, a direction in which a laser gas is supplied into the optical resonator, and a direction of discharge for exciting the laser gas are mutually orthogonal to one another, the device including: an exciting unit including a blower supplying the laser gas in −X direction to the optical axis of the optical resonator, and a discharge electrode pair which is shifted on a gas upstream side with respect to the optical axis; and an exciting unit including a blower for supplying the laser gas in +X direction to the optical axis of the optical resonator, and a discharge electrode pair which is shifted on a gas upstream side with respect to the optical axis

主权项

1. A tri-axially orthogonal gas laser device in which an optical axis of an optical resonator, a direction in which a laser gas is supplied into the optical resonator, and a direction of discharge for exciting the laser gas are mutually orthogonal to one another, the device comprising:
a first exciting unit including a first gas supply mechanism for supplying the laser gas in a first gas flow direction to the optical axis of the optical resonator, and a first discharge electrode pair which is shifted on an upstream side of the first gas flow direction with respect to the optical axis; and a second exciting unit including a second gas supply mechanism for supplying the laser gas in a second gas flow direction opposite to the first gas flow direction to the optical axis of the optical resonator, and a second discharge electrode pair which is shifted on an upstream side of the second gas flow direction with respect to the optical axis; wherein in the first discharge electrode pair and the second discharge electrode pair, the upper and lower electrodes of the respective electrode pairs have the same width in the respective first and second gas flow directions, and the electrodes are so arranged that when observed in the direction of discharge, a distance between the optical axis of the optical resonator and the first discharge electrode pair is equal to a distance between the optical axis of the optical resonator and the second discharge electrode pair, and the electrode width of the first discharge electrode pair is equal to the electrode width of the second discharge electrode pair, thereby achieving a gain distribution of the laser gas symmetrical with respect to a plane which is perpendicular to the gas flow direction and includes the optical axis of the optical resonator, the gain distribution having two peaks of gain and a lower gain in the center portion thereof, and the optical resonator includes a plurality of mirrors including two folding mirrors, and a plurality of aperture members each having a circular opening for defining an optical path of a laser beam, an aperture member in the plurality of aperture members being located near one of the two folding mirrors, and a beam mode is produced so that an M2 value is 1.8 to 3 and a peak of intensity distribution is torus-shaped in a plane flush with one of the circular openings near the two folding mirrors.