Plasma treatment device and optical monitor device

摘要

An optical monitor device of the present microwave plasma etching device has: a monitor head located in a position more radially inward than the edge of a semiconductor wafer W mounted on a susceptor, more radially outward than a coaxial pipe, and above a cover plate; an optical waveguide for monitoring provided vertically below the monitor head, and longitudinally traversing the cooling plate, a dielectric plate, and a dielectric window; and a monitor main body optically connected to the monitor head via an optical fiber.

主权项

1. A plasma treatment device comprising:
a treatment vessel that is capable of being evacuated and at least partly includes a dielectric window; a substrate holding unit that holds a substrate to be treated within the treatment vessel; a treatment gas supply unit that supplies a predetermined treatment gas within the treatment vessel in order to perform a predetermined plasma treatment on the substrate; a slot plate made of a conductor that includes one or plural slots to radiate microwave within the treatment vessel, wherein the slot plate is installed above the dielectric window; a microwave supply unit including a coaxial pipe that supplies microwave into the treatment vessel through the coaxial pipe, the slot plate and the dielectric window in order to generate plasma of the treatment gas by plasma discharge; and an optical monitor unit disposed above the treatment vessel and that optically monitors or measures a surface of the substrate within the treatment vessel through mesh type penetration holes formed in the slot plate installed above the dielectric window, wherein the optical monitor unit includes:
a light source that generates monitor light;a light receiving unit that converts reflected light from the substrate for the monitor light into an electrical signal;a monitor circuit that outputs monitor information or a monitor result by allowing the electrical signal from the light receiving unit to be subjected to a predetermined signal processing;a monitor head that irradiates the monitor light on the surface of the substrate held on the substrate holding unit through the mesh type penetration holes of the slot plate installed above the dielectric window, and receive the reflected light from the surface of the substrate through the mesh type penetration holes of the slot plate installed above the dielectric window;a monitor light transmission unit that transmits the monitor light from the light source to the monitor head; anda reflected light transmission unit that transmits the reflected light from the monitor head to the light receiving unit, andthe monitor head includes:
a sealable housing that is made of a conductor and connected to an optical waveguide disposed below the sealable housing, wherein the optical waveguide traverses through the dielectric window and the mesh type penetration holes formed in the slot plate such that the monitor light and the reflected light pass between the sealable housing and the mesh type penetration holes through the optical waveguide, wherein the optical waveguide is radially separate from the coaxial pipe and does not extend into the coaxial pipe of the microwave supply unit,a predetermined optical component that is located at a position where the monitor light or the reflected light passes within the housing,a purge gas supply unit that supplies a purge gas into the housing, and an exhaust unit that exhausts the gas from the inside of the housing.