Abstract: An irradiator includes: a first electrode to which a voltage is applied for generating a plasma; and a holding member holding the first electrode; wherein: the holding member has a first member and a second member that are in contact with each other to constitute an accommodation space accommodating the first electrode; and a contact surface between the first member and the second member includes a non-perpendicular contact surface that is non-perpendicular to an axis of the first electrode.

Abstract: An irradiator includes: a first electrode to which a voltage is applied for generating a plasma; and a holding member holding the first electrode; wherein: the holding member has a first member and a second member that are in contact with each other to constitute an accommodation space accommodating the first electrode; and a contact surface between the first member and the second member includes a non-perpendicular contact surface that is non-perpendicular to an axis of the first electrode.

Abstract: To provide a plasma processing apparatus capable of enhancing insulation between an electrode and a casing and adjusting the temperature of the electrode from outside. An electrode 30 is provided at its discharge space forming surface with a solid dielectric 50. The electrode 30 is received in a casing 20 such that the solid dielectric 50 on the discharge space forming surface is exposed. An in-casing space 29 between the casing 20 and the electrode 30 disposed in the casing 20 is filled with substantially pure nitrogen gas. This nitrogen gas pressure is more increased than the pressure in the discharge space. Preferably, nitrogen gas is allowed to flow.

Abstract: To prevent occurrence of arcing caused by difference of thermal expansion between the electrode and the solid dielectric in a plasma processing apparatus. The bottom part of a casing 20 of processing units 10L, 10R is open, this opening part is closed with a solid dielectric plate 50, and an electrode 30 is received in the casing 20 such that the electrode 30 is free in the longitudinal direction. The solid dielectric plate 50 has such strength as capable of supporting the dead weight of the electrode 30 solely by itself. The electrode 30 is placed on the upper surface of the solid dielectric plate 50 is a non-fixed state such that the dead weight of the electrode 30 is almost totally applied to the solid dielectric plate 50.

Abstract: In an atmospheric-pressure plasma processing apparatus, a first metal surface 21a of a first stage portion 21 of a stage 20 is exposed and an object to be processed W composed of a dielectric material is placed on the first metal surface 21a. A second stage portion 22 is disposed on a peripheral edge of the first stage portion 21. A solid dielectric layer 25 is disposed on a second metal 24 of the second stage portion 22. A peripheral portion of the object W is placed on an inner dielectric portion 26 of the solid dielectric layer 25. An electrode 11 generates a run up discharge D2 in a second movement range R2 above the second stage portion 22. Then, the electrode 11 is moved to a first movement range R1 above the first stage portion 21 and generates a regular plasma discharge D1.

Abstract: To provide a plasma processing apparatus capable of enhancing insulation between an electrode and a casing and adjusting the temperature of the electrode from outside. An electrode 30 is provided at its discharge space forming surface with a solid dielectric 50. The electrode 30 is received in a casing 20 such that the solid dielectric 50 on the discharge space forming surface is exposed. An in-casing space 29 between the casing 20 and the electrode 30 disposed in the casing 20 is filled with substantially pure nitrogen gas. This nitrogen gas pressure is more increased than the pressure in the discharge space. Preferably, nitrogen gas is allowed to flow.

Abstract: To prevent occurrence of arcing caused by difference of thermal expansion between the electrode and the solid dielectric in a plasma processing apparatus. The bottom part of a casing 20 of processing units 10L, 10R is open, this opening part is closed with a solid dielectric plate 50, and an electrode 30 is received in the casing 20 such that the electrode 30 is free in the longitudinal direction. The solid dielectric plate 50 has such strength as capable of supporting the dead weight of the electrode 30 solely by itself. The electrode 30 is placed on the upper surface of the solid dielectric plate 50 is a non-fixed state such that the dead weight of the electrode 30 is almost totally applied to the solid dielectric plate 50.