The present disclosure is intended to provide, as a polishing pad to which a window for an endpoint detection is applied, and in which the window is capable of providing improved polishing performance in terms of preventing defects, etc., by a specific structure due to the window, rather than negatively affecting polishing performance as a local heterogeneous component on the polishing pad, a polishing pad including: a polishing layer including a first surface that is a polishing surface and a second surface that is a rear surface thereof, and containing a first through-hole penetrating from the first surface to the second surface; a window disposed in the first through-hole; and a void between a side surface of the first through-hole and a side surface of the window, and a method for manufacturing a semiconductor device by applying the same.

An improved magnetic tunnel junction with two oxide interfaces on each side of a ferromagnetic layer (FML) leads to higher PMA in the FML. The novel stack structure allows improved control during oxidation of the top oxide layer. This is achieved by the use of a FML with a multiplicity of ferromagnetic sub-layers deposited in alternating sequence with one or more non-magnetic layers. The use of non-magnetic layers each with a thickness of 0.5 to 10 Angstroms and with a high resputtering rate provides a smoother FML top surface, inhibits crystallization of the FML sub-layers, and reacts with oxygen to prevent detrimental oxidation of the adjoining ferromagnetic sub-layers. The FML can function as a free or reference layer in an MTJ. In an alternative embodiment, the non-magnetic material such as Mg, Al, Si, Ca, Sr, Ba, and B is embedded by co-deposition or doped in the FML layer.

An improved magnetic tunnel junction with two oxide interfaces on each side of a ferromagnetic layer (FML) leads to higher PMA in the FML. The novel stack structure allows improved control during oxidation of the top oxide layer. This is achieved by the use of a FML with a multiplicity of ferromagnetic sub-layers deposited in alternating sequence with one or more non-magnetic layers. The use of non-magnetic layers each with a thickness of 0.5 to 10 Angstroms and with a high resputtering rate provides a smoother FML top surface, inhibits crystallization of the FML sub-layers, and reacts with oxygen to prevent detrimental oxidation of the adjoining ferromagnetic sub-layers. The FML can function as a free or reference layer in an MTJ. In an alternative embodiment, the non-magnetic material such as Mg, Al, Si, Ca, Sr, Ba, and B is embedded by co-deposition or doped in the FML layer.

Disclosed is a chemical mechanical polishing apparatus. The chemical mechanical polishing apparatus comprises a lower base, a platen configured to rotate and provided on a top surface of the lower base, a polishing pad on the platen; and at least one slurry supply device that is disposed adjacent to the polishing pad and supplies a slurry to the polishing pad. The slurry supply device comprises a capillary nozzle that is disposed over the polishing pad and includes a pin-type conductive tip therein, a slurry supply unit that supplies the slurry into the capillary nozzle, and a voltage supply unit that applies a voltage to the pin-type conductive tip.

Disclosed is a chemical mechanical polishing apparatus. The chemical mechanical polishing apparatus comprises a lower base, a platen configured to rotate and provided on a top surface of the lower base, a polishing pad on the platen; and at least one slurry supply device that is disposed adjacent to the polishing pad and supplies a slurry to the polishing pad. The slurry supply device comprises a capillary nozzle that is disposed over the polishing pad and includes a pin-type conductive tip therein, a slurry supply unit that supplies the slurry into the capillary nozzle, and a voltage supply unit that applies a voltage to the pin-type conductive tip.

To provide improved planarization, techniques in accordance with this disclosure include a CMP station that includes a support plate having a plurality of apertures. An aperture of the plurality of apertures has a first opening and a second opening connected by a slot. Other systems and methods are also disclosed.

To provide improved planarization, techniques in accordance with this disclosure include a CMP station that includes a support plate having a plurality of apertures. An aperture of the plurality of apertures has a first opening and a second opening connected by a slot. Other systems and methods are also disclosed.

A polishing pad conditioning apparatus includes a base, a fiber, and a polymer protruding from a surface of the base and encompassing the fiber.

A polishing pad conditioning apparatus includes a base, a fiber, and a polymer protruding from a surface of the base and encompassing the fiber.

A method of detecting a polishing endpoint includes storing a plurality of library spectra, measuring a sequence of spectra from the substrate in-situ during polishing, and for each measured spectrum of the sequence of spectra, finding a best matching library spectrum from the plurality of library spectra to generate a sequence of best matching library spectra. Each library spectrum has a stored associated value representing a degree of progress through a polishing process, and the stored associated value for the best matching library spectrum is determined for each best matching library spectrum to generate a sequence of values representing a progression of polishing of the substrate. The sequence of values is compared to a target value, and a polishing endpoint is triggered when the sequence of values reaches the target value.