A method of conditioning a polishing pad includes receiving information on a roughness of the polishing pad from a first sensor. The method further includes conditioning the polishing pad using a conditioner. The method further includes detecting the roughness of the polishing pad following the conditioning. The method further includes repeating the conditioning in response to the detected roughness of the polishing pad being outside of a threshold roughness range.

A chemical-mechanical polishing/planarization pad conditioner body made from diamond-reinforced reaction bonded silicon carbide, with diamond particles protruding or “standing proud” of the rest of the surface, and uniformly distributed on the cutting surface. In one embodiment, the diamond particles are approximately uniformly distributed throughout the composite, but in other embodiments they are preferentially located at and near the conditioning surface. The tops of the diamond particles can be engineered to be at a constant elevation (i.e., the conditioner body can be engineered to be very flat). Exemplary shapes of the body may be disc or toroidal. The diamond particles can be made to protrude from the conditioning surface by preferentially eroding the Si/SiC matrix. The eroding may be accomplished by electrical discharge machining or by lapping/polishing with abrasive.

A chemical-mechanical polishing/planarization pad conditioner body made from diamond-reinforced reaction bonded silicon carbide, with diamond particles protruding or “standing proud” of the rest of the surface, and uniformly distributed on the cutting surface. In one embodiment, the diamond particles are approximately uniformly distributed throughout the composite, but in other embodiments they are preferentially located at and near the conditioning surface. The tops of the diamond particles can be engineered to be at a constant elevation (i.e., the conditioner body can be engineered to be very flat). Exemplary shapes of the body may be disc or toroidal. The diamond particles can be made to protrude from the conditioning surface by preferentially eroding the Si/SiC matrix. The eroding may be accomplished by electrical discharge machining or by lapping/polishing with abrasive.

A method of shaping a cutting blade, includes a modified layer forming step of forming a plurality of modified layers at different heights within a dressing member by irradiating the dressing member with a laser beam having a wavelength transmissible through the dressing member from one surface of the dressing member a plurality of times while a focusing point of the laser beam is positioned within the dressing member, and a blade shaping step of shaping the cutting blade into a predetermined shape formed by the plurality of modified layers by cutting the dressing member by the cutting blade until the cutting blade reaches the modified layers after performing the modified layer forming step.

A method of shaping a cutting blade, includes a modified layer forming step of forming a plurality of modified layers at different heights within a dressing member by irradiating the dressing member with a laser beam having a wavelength transmissible through the dressing member from one surface of the dressing member a plurality of times while a focusing point of the laser beam is positioned within the dressing member, and a blade shaping step of shaping the cutting blade into a predetermined shape formed by the plurality of modified layers by cutting the dressing member by the cutting blade until the cutting blade reaches the modified layers after performing the modified layer forming step.

A pad conditioner head cleaning tool has a first clamp configured to removably engage a first portion of a sponge against an outer surface of a disk-shaped pad conditioner head at a first location, a second clamp configured to removable engage a second portion of the sponge against the outer surface of the disk-shaped pad conditioner head at a second location, and an arm coupling the first clamp to the second clamp. The arm is sufficiently flexible to permit the first clamp and the second clamp to be separated to fit around the disk-shaped pad conditioner head and sufficiently tensile to bias the first clamp and the second clamp inwardly to press the sponge against an outer surface of a pad conditioner head.

A pad conditioner head cleaning tool has a first clamp configured to removably engage a first portion of a sponge against an outer surface of a disk-shaped pad conditioner head at a first location, a second clamp configured to removable engage a second portion of the sponge against the outer surface of the disk-shaped pad conditioner head at a second location, and an arm coupling the first clamp to the second clamp. The arm is sufficiently flexible to permit the first clamp and the second clamp to be separated to fit around the disk-shaped pad conditioner head and sufficiently tensile to bias the first clamp and the second clamp inwardly to press the sponge against an outer surface of a pad conditioner head.

A method of processing a semiconductor wafer includes depositing a silicon layer on the semiconductor wafer. The silicon layer has a substantially uniform thickness. The silicon layer is polished to smooth the silicon layer such that the thickness is substantially uniform after polishing.

A method of processing a semiconductor wafer includes depositing a silicon layer on the semiconductor wafer. The silicon layer has a substantially uniform thickness. The silicon layer is polished to smooth the silicon layer such that the thickness is substantially uniform after polishing.

Provided is an apparatus and a method that allow a control of a removal amount at an atomic level and allow a selective removal from a projecting portion of a process target.

According to one embodiment, a substrate processing apparatus is provided, and the substrate processing apparatus includes: a table for holding a substrate; a nozzle for supplying a process liquid to a top of the substrate held onto the table; a head for holding a photocatalyst; a conditioner for conditioning the photocatalyst; a first moving mechanism for moving the head in a direction perpendicular to a surface of the table; and a second moving mechanism for moving the head between the table and the conditioner.