System and method for decapsulation of plastic integrated circuit packages by providing a microwave generator, providing a Beenakker resonant cavity connected to the microwave generator, which cavity comprises a coupling antenna loop, providing the cavity with a tube or tubes for supply of plasma gas and etchant gas or gases and with means for igniting the plasma gas, and providing that the cavity is set at a predefined value of its Q factor by embodying the coupling antenna loop and/or a wire optionally attached to the coupling antenna loop in a metal or metal alloy, or providing that at least at part of its surface area the coupling antenna loop and/or the wire is coated with a metal or metal alloy different than copper and with a higher resistivity than copper.

Disclosed is a microwave plasma processing apparatus including: a chamber that accommodates a workpiece; a microwave generating source that generates microwaves; a waveguide unit that guides the microwaves toward the chamber; a planar antenna made of a conductor having a plurality of slots that radiate the microwaves toward the chamber; a microwave-transmitting plate made of a dielectric material that constitutes a top wall of the chamber and transmits the microwaves radiated from the plurality of slots; a gas supply mechanism that supplies a gas into the chamber; and an exhaust mechanism that exhausts an atmosphere in the chamber. The planar antenna includes a plurality of slot groups each forming one unit including one or more of the slots, and the slots are formed so as to form an odd number of the slot groups equal to or more than three in a circumferential direction.

Disclosed is a plasma processing apparatus for performing a plasma processing on a workpiece. The apparatus includes: a processing container that accommodates the workpiece; a dielectric window that is provided to seal an opening in an upper portion of the processing container and transmits microwaves into the processing container; and a slot plate that is provided on an upper surface of the dielectric window and has a plurality of slots formed to radiate the microwaves to the dielectric window. The dielectric window includes a protrusion protruding downward from a lower surface of the dielectric window at a position corresponding to each of the slot, and a width of the protrusion is λ/4±λ/8 with respect to a wavelength λ of the microwaves.

In a film-forming apparatus according to an aspect, a substrate placed on a substrate placing region passes through a first region and a second region in this order by rotation of a placing table. A precursor gas is supplied to the first region. Plasma of a reaction gas is generated in the second region by a plasma generation section. The plasma generation section includes an antenna that supplies microwaves as a plasma source. The antenna includes a dielectric window member and a waveguide. The window member is provided above the second region. The waveguide defines a waveguide path that extends in a radial direction. The waveguide is formed with a plurality of slot holes that allow the microwaves to pass therethrough from the waveguide path toward the window member plate. A bottom surface of the window member defines a groove that extends in the radial direction.

Embodiments of the inventive concepts provide an antenna, a microwave plasma source including the antenna, a plasma processing apparatus including the antenna, and a method of manufacturing method of a semiconductor device. The antenna includes a lower ring having a plurality of output slits, and an upper ring disposed on the lower ring. The upper ring has an input slit transmitting microwave power from an outside of the upper ring onto the lower ring. The upper ring is configured to rotate with respect to the lower ring.

A plasma processing apparatus includes: a processing container which defines a processing space; a microwave generator; a dielectric having an opposing surface which faces the processing space; a slot plate formed with a plurality of slots; and a heating member provided within the slot plate. The slot plate is provided on a surface of the dielectric at an opposite side to the opposing surface to radiate microwaves for plasma excitation to the processing space through the dielectric based on the microwaves generated by the microwave generator.

A plasma processing apparatus includes a processing container including an opening provided in a ceiling wall of the processing container, and a microwave radiation source. The microwave radiation source includes a slot antenna including a slot and configured to radiate microwaves from the slot, and a transmission window configured to close the opening and to radiate the microwaves from the slot into the processing container. The transmission window includes a first surface including a skirt which suspends to cover a side wall of the opening, and a second surface which is an opposite surface to the first surface and faces the slot antenna with a gap between the slot antenna and the second surface.

Disclosed is a plasma processing apparatus that processes a processing target substrate using microwave plasma within a processing container. The plasma processing apparatus includes a placing table provided in the processing container, and configured to place the processing target substrate thereon; and an antenna provided above the placing table to face the placing table, and including a dielectric plate, the antenna being configured to radiate microwaves into the processing container through the dielectric plate to generate plasma of a processing gas supplied into the processing container. The dielectric plate includes a flat plate portion provided on a bottom surface of the antenna, and formed in a flat shape at least on a surface facing the placing table; and a rib formed on a surface of the flat plate portion that is opposite to the surface facing the placing table.

Disclosed is a plasma processing method including: growing a polycrystalline silicon layer on a processing target base body; and exposing the polycrystalline silicon layer to hydrogen radicals by supplying a processing gas containing hydrogen into a processing container that accommodates the processing target base body including the polycrystalline silicon layer grown thereon and radiating microwaves within the processing container to generate the hydrogen radicals.

A plasma processing apparatus includes a partition plate, an antenna, and a high frequency power supply. The partition plate has a plurality of holes and partitions an inside of the processing container into a plasma generation chamber and a processing chamber. The antenna generates plasma of the plasma excitation gas supplied into the plasma generation chamber. The high frequency power supply generates plasma of a precoating gas supplied into the plasma generation chamber and introduced into the processing chamber through the plurality of holes of the partition plate. The plasma processing apparatus performs a precoating on a surface of a partition plate on a side of the processing chamber by causing the high frequency power supply to generate plasma of the precoating gas before a plasma processing using the plasma of the plasma excitation gas is performed.