The purpose of the invention is to provide technology, which, in addition to being capable of forming thick hard carbon films of excellent durability even using PVD, is able to establish both chipping resistance and wear resistance in the formed hard carbon film and able to improve low friction properties and peeling resistance. Provided is a coating film to be coated on the surface of a substrate, the coating film having a total film thickness of greater than 1 m to 50 m wherein: when a cross-section is observed using bright field TEM images, white hard carbon layers that are shown as relatively white and black hard carbon layers that are shown as black are alternately laminated in the thickness direction; and the white hard carbon layers have regions that have grown in a fan-shape in the thickness direction.

The present invention provides a technique to enable sufficient space saving in a transit-type vacuum processing device. The vacuum processing device 1 of the present invention has: a vacuum chamber 2 where a single vacuum ambience is formed; first and second processing regions 4 and 5 that are provided in the vacuum chamber 2 and have a processing source that performs processing on a planar process surface of a substrate 10; and a conveyance drive member 33 that forms a conveyance path for conveying the substrate 10 so as to pass through the first and second processing regions 4 and 5. The conveyance path is formed as a single annular path when the conveyance path is projected onto a plane (vertical plane) containing: a normal line of an arbitrary point on a process surface of the substrate 10 conveyed through the conveyance path, and a trajectory line drawn by the arbitrary point on the process surface of the substrate 10 when the substrate 10 passes straight through the first and second processing regions 4 and 5.

The present disclosure relates to a clamping device configured to clamp a substrate. The clamping device includes a clamping plate and a flattening mechanism. The flattening mechanism includes at least one adjusting member configured to operably act on the clamping plate to apply a force to the clamping plate to flatten the clamping plate.

The present disclosure relates to a clamping device configured to clamp a substrate. The clamping device includes a clamping plate and a flattening mechanism. The flattening mechanism includes at least one adjusting member configured to operably act on the clamping plate to apply a force to the clamping plate to flatten the clamping plate.

Disclosed is a substrate treating apparatus for performing a predetermined treatment on a substrate. The apparatus includes: a holding mechanism including a plurality of support pins configured to rotate between a holding position and a delivery position, a first magnetic part configured to rotate the support pins individually between the holding position and the delivery position by switching surrounding magnetic poles, and a second magnetic part configured to rotate the support pins individually to the holding position by constantly applying a magnetic field to the first magnetic part; and a switching mechanism configured to apply no magnetic field of a third magnetic part to the first magnetic part normally and apply a magnetic field of the third magnetic part to the first magnetic part to rotate the support pins individually to the delivery position only when the substrate is delivered.

A DLC film deposition apparatus comprises a chamber in which processes are performed, a substrate in the chamber, the substrate having a first surface facing the top of the chamber, and a second surface opposite to the first surface, a holder in the chamber, the holder configured to support the substrate while being in contact with part of the second surface of the substrate, and a DLC film generator below the substrate, in the chamber, the DLC film generator configured to deposit a DLC film on the second surface of the substrate, wherein the DLC film is formed on the part of the second surface of the substrate that is not in contact with the holder.

A DLC film deposition apparatus comprises a chamber in which processes are performed, a substrate in the chamber, the substrate having a first surface facing the top of the chamber, and a second surface opposite to the first surface, a holder in the chamber, the holder configured to support the substrate while being in contact with part of the second surface of the substrate, and a DLC film generator below the substrate, in the chamber, the DLC film generator configured to deposit a DLC film on the second surface of the substrate, wherein the DLC film is formed on the part of the second surface of the substrate that is not in contact with the holder.

Various embodiments herein relate to carriers for supporting one or more substrate as the substrates are passed through a processing apparatus. In many cases, the substrates are oriented in a vertical manner. The carrier may include a frame and vertical support bars that secure the glass to the frame. The carrier may lack horizontal support bars. The carrier may allow for thermal expansion and contraction of the substrates, without any need to provide precise gaps between adjacent pairs of substrates. The carriers described herein substantially reduce the risk of breaking the processing apparatus and substrates, thereby achieving a more efficient process. Certain embodiments herein relate to methods of loading substrates onto a carrier.

Various embodiments herein relate to carriers for supporting one or more substrate as the substrates are passed through a processing apparatus. In many cases, the substrates are oriented in a vertical manner. The carrier may include a frame and vertical support bars that secure the glass to the frame. The carrier may lack horizontal support bars. The carrier may allow for thermal expansion and contraction of the substrates, without any need to provide precise gaps between adjacent pairs of substrates. The carriers described herein substantially reduce the risk of breaking the processing apparatus and substrates, thereby achieving a more efficient process. Certain embodiments herein relate to methods of loading substrates onto a carrier.

A film forming apparatus according to an embodiment includes: a process chamber forming a film on a substrate; an abatement device detoxifying a first exhaust gas exhausted from the process chamber; a first supply pipe for supplying a gas containing water to the process chamber; a first vacuum pump provided in a first flow path of the first exhaust gas between the process chamber and the abatement device; a second vacuum pump provided in the first flow path between the first vacuum pump and the abatement device; and a first detector provided in the first flow path between the second vacuum pump and the abatement device and capable of detecting a hydrogenated gas.