A semiconductor manufacturing device has a cooling pad with a plurality of movable pins. The cooling pad includes a fluid pathway and a plurality of springs disposed in the fluid pathway. Each of the plurality of springs is disposed under a respective movable pin. A substrate includes an electrical component disposed over a surface of the substrate. The substrate is disposed over the cooling pad with the electrical component oriented toward the cooling pad. A force is applied to the substrate to compress the springs. At least one of the movable pins contacts the substrate. A cooling fluid is disposed through the fluid pathway.

A semiconductor manufacturing device has a cooling pad with a plurality of movable pins. The cooling pad includes a fluid pathway and a plurality of springs disposed in the fluid pathway. Each of the plurality of springs is disposed under a respective movable pin. A substrate includes an electrical component disposed over a surface of the substrate. The substrate is disposed over the cooling pad with the electrical component oriented toward the cooling pad. A force is applied to the substrate to compress the springs. At least one of the movable pins contacts the substrate. A cooling fluid is disposed through the fluid pathway.

A shutter disk suitable for shield a substrate support in a physical vapor deposition chamber is provided. In one embodiment, the shutter disk includes a disk-shaped body having an outer diameter disposed between a top surface and a bottom surface. The disk-shape body includes a double step connecting the bottom surface to the outer diameter.

A shutter disk suitable for shield a substrate support in a physical vapor deposition chamber is provided. In one embodiment, the shutter disk includes a disk-shaped body having an outer diameter disposed between a top surface and a bottom surface. The disk-shape body includes a double step connecting the bottom surface to the outer diameter.

The present invention provides a film formation method and a film formation apparatus which can fabricate an epitaxial film with +c polarity by a sputtering method. In one embodiment of the present invention, the film formation method of epitaxially growing a semiconductor thin film with a wurtzite structure by the sputtering method on an epitaxial growth substrate heated to a predetermined temperature by a heater includes the following steps. First, the substrate is disposed on a substrate holding portion including the heater to be located at a predetermined distance away from the heater. Then, the epitaxial film of the semiconductor film with the wurtzite structure is formed on the substrate with the impedance of the substrate holding portion being adjusted.

The present invention provides a film formation method and a film formation apparatus which can fabricate an epitaxial film with +c polarity by a sputtering method. In one embodiment of the present invention, the film formation method of epitaxially growing a semiconductor thin film with a wurtzite structure by the sputtering method on an epitaxial growth substrate heated to a predetermined temperature by a heater includes the following steps. First, the substrate is disposed on a substrate holding portion including the heater to be located at a predetermined distance away from the heater. Then, the epitaxial film of the semiconductor film with the wurtzite structure is formed on the substrate with the impedance of the substrate holding portion being adjusted.

A device and a method for manufacturing a thin film are provided. The device includes: a chamber; a substrate carrying member arranged within the chamber and configured to carry thereon a substrate on which the thin film is to be formed; a mask fixation member configured to fix a mask, wherein the mask includes a shielding region and an opening region, and a material for forming the thin film is allowed to pass through the opening region; and a position adjustment member configured to adjust a distance between the mask and the substrate to form the thin films of different sizes on the substrate, wherein orthogonal projections of the thin films of different sizes onto the substrate have different areas.

A device and a method for manufacturing a thin film are provided. The device includes: a chamber; a substrate carrying member arranged within the chamber and configured to carry thereon a substrate on which the thin film is to be formed; a mask fixation member configured to fix a mask, wherein the mask includes a shielding region and an opening region, and a material for forming the thin film is allowed to pass through the opening region; and a position adjustment member configured to adjust a distance between the mask and the substrate to form the thin films of different sizes on the substrate, wherein orthogonal projections of the thin films of different sizes onto the substrate have different areas.

An optical elements holder device for a coating station is provided, including: a sheet carrier having holes and presenting a shape of a dome or a part of a dome; and elastic blocking means fixed to the sheet carrier associated with each hole and including at least three elastic contact portions distributed on a circumference of each hole and configured to block a block piece carrying a lens blank to hold the lens blank in a predetermined position for coating. A coating station for optical elements and a method for coating an optical element in a coating station are also provided.

An optical elements holder device for a coating station is provided, including: a sheet carrier having holes and presenting a shape of a dome or a part of a dome; and elastic blocking means fixed to the sheet carrier associated with each hole and including at least three elastic contact portions distributed on a circumference of each hole and configured to block a block piece carrying a lens blank to hold the lens blank in a predetermined position for coating. A coating station for optical elements and a method for coating an optical element in a coating station are also provided.