A metal removal method which includes: a reaction step of bringing a treatment gas containing a fluorine-containing interhalogen compound and a metal-containing material containing a metal element into contact with each other to generate metal fluoride which is a reaction product of the fluorine-containing interhalogen compound and the metal element; and a volatilization step of heating the metal fluoride under an inert gas atmosphere or in a vacuum environment for volatilization. The metal element is at least one kind selected from iron, cobalt, nickel, selenium, molybdenum, rhodium, palladium, tungsten, rhenium, iridium, and platinum. Also disclosed is a dry etching method using the metal removal method and a production method for a semiconductor element using the dry etching method.

Provided is a system including a microwave source configured to generate microwaves, a branch apparatus including an input port connected to the microwave source, first and second chambers configured to process a wafer by using the microwaves, a first filter configured to transfer the microwaves to or cut off the microwaves from the first chamber, and connected to a first output port of the branch apparatus, and a second filter configured to transfer the microwaves to or cut off the microwaves from the second chamber, and connected to a second output port of the branch apparatus.

A transistor device includes a semiconductor structure comprising a channel layer and a barrier layer, source and drain contacts on the semiconductor structure, and a conductive element in a recess in the barrier layer between the source and drain contacts. The barrier layer has a first thickness adjacent the source or drain contact, a second thickness at a floor of the recess between the conductive element and the channel layer, and the first thickness is about 1.2 times to 4 times greater than the second thickness. Related methods of fabrication using a looped recess process are also discussed.

The current disclosure relates to a method of etching etchable material from a semiconductor substrate. The method comprises providing a substrate comprising the etchable material into a reaction chamber and providing a haloalkylamine into the reaction chamber in vapor phase for etching the etchable material. The disclosure further relates to a semiconductor processing assembly, and to a method of cleaning a reaction chamber.

Methods for selective etching of one layer or material relative to another layer or material adjacent thereto. In an example, a SiGe layer is etched relative to or selective to another silicon containing layer which either contains no germanium or geranium in an amount less than that of the target layer.

An apparatus and methods for selectively etching a particular layer are disclosed. The apparatus and methods are directed towards maintaining the etch rate of the particular layer, while keeping intact a non-etched layer. A gas mixture may be flowed onto the substrate in separate loops having an oxide layer and an oxynitride layer as an etch layer and a nitride layer as a non-etched layer, for example. A reaction between the resulting gas mixture and the particular layer takes place, resulting in etching of the oxide layer and the oxynitride layer while maintaining the nitride layer in the above example.