Laser beam applying mechanism and laser processing apparatus

摘要

A laser beam applying mechanism has a power adjusting unit provided between a laser beam oscillator and a focusing lens. The power adjusting unit includes a half-wave plate, a prism having a first polarization beam splitter film and a second polarization beam splitter film. The optical path is adjusted by a piezoelectric actuator opposed to the first polarization beam splitter film, and a polarized light components synthesizer opposed to the second polarization beam splitter film generates a phase difference (β) between an S polarized light component and a P polarized light component. The phase difference (β) between the S polarized light component and the P polarized light component of the laser beam obtained by the polarized light components synthesizer is in the range of 0° to 180°.

主权项

1. A laser beam applying mechanism comprising:
a laser beam oscillator for oscillating a laser beam; a focusing lens for focusing said laser beam oscillated by said laser beam oscillator; and a power adjuster provided between said laser beam oscillator and said focusing lens for adjusting the power of said laser beam oscillated by said laser beam oscillator; said power adjuster including a half-wave plate for 45° rotating the polarization plane of said laser beam of linearly polarized light oscillated by said laser beam oscillator, a prism provided on the emergence side of said half-wave plate and having a first polarization beam splitter film and a second polarization beam splitter film each for reflecting an S polarized light component of said incident laser beam and transmitting a P polarized light component of said incident laser beam, an optical path length adjuster including a first mirror having a mirror surface opposed to said first polarization beam splitter film for reflecting the P polarized light component transmitted through said first polarization beam splitter film and a piezoelectric actuator mounted on said first mirror for adjusting the spacing between said mirror surface of said first mirror and said first polarization beam splitter film according to a voltage applied, thereby generating a first phase difference (α) between the S polarized light component reflected on said first polarization beam splitter film and the P polarized light component reflected on said mirror surface of said first mirror, a polarized light component synthesizer including a second mirror having a mirror surface opposed to said second polarization beam splitter film with a predetermined spacing defined therebetween for reflecting the P polarized light component reflected on said mirror surface of said first mirror and next transmitted through said second polarization beam splitter film, thereby generating a second phase difference (β) between the S polarized light component reflected on said first polarization beam splitter film and next reflected on said second polarization beam splitter film and the P polarized light component transmitted through said second polarization beam splitter film and next reflected on said mirror surface of said second mirror, a beam divider having a third polarization beam splitter film for dividing the laser beam obtained by said polarized light component synthesizer into an optical path directed to said focusing lens and an optical path directed to a beam damper, and controller for controlling the voltage to be applied to said piezoelectric actuator of said optical path length adjuster to thereby adjust the spacing between said mirror surface of said first mirror and said first polarization beam splitter film, thereby controlling a third phase difference (α+β) between the S polarized light component and the P polarized light component of the laser beam obtained by said polarized light component synthesizer in the range of 0° to 180°.