Abstract: A laser processing machine to perform laser processing by focusing a laser beam onto a workpiece, includes a light-focusing optical system to focus the laser beam, wherein the light-focusing optical system has an aberration, and a lateral aberration with respect to a laser beam diameter:D86.5 containing 86.5% of the laser power of a laser beam before being focused is 0.2 mm or more, the lateral aberration being at a light focusing point relative to a light beam corresponding to the laser beam diameter:D86.5.

Abstract: A laser processing machine to perform laser processing by focusing a laser beam onto a workpiece, includes a light-focusing optical system to focus the laser beam, wherein the light-focusing optical system has an aberration, and a lateral aberration with respect to a laser beam diameter: D86.5 containing 86.5% of the laser power of a laser beam before being focused is 0.2 mm or more, the lateral aberration being at a light focusing point relative to a light beam corresponding to the laser beam diameter: D86.5.

Abstract: There is provided an ozone generating apparatus that requires no use of cooling water, is small in size and easy in maintenance. The ozone generating apparatus includes a ground electrode 1 formed of a substantially cylindrical metal tube, and a high voltage electrode 5 having a substantially cylindrical dielectric body substantially concentrically arranged inside the ground electrode, and having a high voltage applied to an electrically conductive layer 6 formed on an inner peripheral surface thereof, in which an oxygen-containing gas is supplied into an electric discharge gap formed between the ground electrode and the high voltage electrode to generate ozone, wherein the ground electrode is formed integrally with plural air cooling fins 2 extending in a longitudinal direction at an outer peripheral side thereof.

Abstract: There is provided an ozone generating apparatus that requires no use of cooling water, is small in size and easy in maintenance. The ozone generating apparatus includes a ground electrode 1 formed of a substantially cylindrical metal tube, and a high voltage electrode 5 having a substantially cylindrical dielectric body substantially concentrically arranged inside the ground electrode, and having a high voltage applied to an electrically conductive layer 6 formed on an inner peripheral surface thereof, in which an oxygen-containing gas is supplied into an electric discharge gap formed between the ground electrode and the high voltage electrode to generate ozone, wherein the ground electrode is formed integrally with plural air cooling fins 2 extending in a longitudinal direction at an outer peripheral side thereof.