In large area plasma processing systems, process gases may be introduced to the chamber via the showerhead assembly which may be driven as an RF electrode. The gas feed tube, which is grounded, is electrically isolated from the showerhead. The gas feed tube may provide not only process gases, but also cleaning gases from a remote plasma source to the process chamber. The inside of the gas feed tube may remain at either a low RF field or a zero RF field to avoid premature gas breakdown within the gas feed tube that may lead to parasitic plasma formation between the gas source and the showerhead. By feeding the gas through an RF choke, the RF field and the processing gas may be introduced to the processing chamber through a common location and thus simplify the chamber design.

Methods for producing a single crystal silicon ingot are disclosed. The ingot is doped with boron using solid-phase boric acid as the source of boron. Boric acid may be used to counter-dope the ingot during ingot growth. Ingot puller apparatus that use a solid-phase dopant are also disclosed. The solid-phase dopant may be disposed in a receptacle that is moved closer to the surface of the melt or a vaporization unit may be used to produce a dopant gas from the solid-phase dopant.

Methods for producing a single crystal silicon ingot are disclosed. The ingot is doped with boron using solid-phase boric acid as the source of boron. Boric acid may be used to counter-dope the ingot during ingot growth. Ingot puller apparatus that use a solid-phase dopant are also disclosed. The solid-phase dopant may be disposed in a receptacle that is moved closer to the surface of the melt or a vaporization unit may be used to produce a dopant gas from the solid-phase dopant.

A susceptor is disclosed that can increase a heat capacity of a susceptor outer peripheral portion by enlarging the thickness of the susceptor and equalize thermal conditions for an outer peripheral portion and the inner peripheral portion of a wafer and a method for manufacturing an epitaxial wafer that uses this susceptor to perform vapor-phase epitaxy of an epitaxial layer. Back surface depositions have a close relationship with heat transfer that occurs between a wafer and a susceptor, i.e., a wafer outer peripheral portion has a higher temperature than a wafer inner peripheral portion since the wafer is in contact with or close to the susceptor at the wafer outer peripheral portion and hence the back surface depositions are apt to be generated. This is solved by equalizing thermal conditions for the wafer outer peripheral portion and the inner peripheral portion of the wafer back surface.

A method is disclosed for producing a high quality bulk single crystal of silicon carbide in a seeded growth system by reducing the separation between a silicon carbide seed crystal and a seed holder until the conductive heat transfer between the seed crystal and the seed holder dominates the radiative heat transfer between the seed crystal and the seed holder over substantially the entire seed crystal surface that is adjacent the seed holder.

Dust that is accumulated in an exhaust passage provided in a chamber, the exhaust passage for discharging gas in the chamber of a semiconductor crystal manufacturing device, is removed by being sucked from the outside of the chamber. Moreover, an opening and closing valve for cleaning that is detachably attached to an opening of the exhaust passage, the opening facing the chamber, is opened and closed intermittently in a suction state. Furthermore, the opening and closing valve for cleaning is driven by a valve driving unit. The dust accumulated in the exhaust passage is removed efficiently, whereby the time required to clean the exhaust passage is shortened and fluctuations of the pressure inside the chamber when a semiconductor crystal is manufactured are suppressed.

Disclosed herein is an apparatus and method for growing a diamond. The apparatus for growing a diamond comprises: a reaction cell that is configured to grow the diamond therein; a main heater including a main heating surface that is arranged along a first inner surface of the reaction cell; and a sub-heater including a sub-heating surface that is arranged along a second inner surface of the reaction cell, the second inner surface being non-parallel with the first inner surface.

In large area plasma processing systems, process gases may be introduced to the chamber via the showerhead assembly which may be driven as an RF electrode. The gas feed tube, which is grounded, is electrically isolated from the showerhead. The gas feed tube may provide not only process gases, but also cleaning gases from a remote plasma source to the process chamber. The inside of the gas feed tube may remain at either a low RF field or a zero RF field to avoid premature gas breakdown within the gas feed tube that may lead to parasitic plasma formation between the gas source and the showerhead. By feeding the gas through an RF choke, the RF field and the processing gas may be introduced to the processing chamber through a common location and thus simplify the chamber design.

Aspects of the present disclosure relate to apparatus, systems, and methods of using atomic hydrogen radicals with epitaxial deposition. In one aspect, nodular defects (e.g., nodules) are removed from epitaxial layers of substrate. In one implementation, a method of processing substrates includes selectively growing an epitaxial layer on one or more crystalline surfaces of a substrate. The epitaxial layer includes silicon. The method also includes etching the substrate to remove a plurality of nodules from one or more non-crystalline surfaces of the substrate. The etching includes exposing the substrate to atomic hydrogen radicals. The method also includes thermally annealing the epitaxial layer to an anneal temperature that is 600 degrees Celsius or higher.

An assembly for the deposition of silicon nanostructures comprising a deposition chamber, which is defined by a side wall and by two end walls; a microwave generator, which is adapted to generate microwaves inside the deposition chamber; an electromagnetic termination wall, made of a conductor material and reflecting the microwave radiation, which is such as to create a termination for a TE-mode waveguide and is housed inside the deposition chamber; and a substrate-carrier support, which is made of a dielectric material and on which the substrate is housed on which to perform the growth of silicon nanostructures. The substrate-carrier support is arranged inside the deposition chamber above the termination wall.