A method of forming a patterned hard mask on a surface of a substrate uses an accelerated neutral beam with carbon atoms.

A method of forming a patterned hard mask on a surface of a substrate uses an accelerated neutral beam with carbon atoms.

A grid assembly for cryo-electron microscopy may be fabricated using standard nanofabrication processes. The grid assembly may comprise two support members, each support member comprising a silicon substrate coated with an electron-transparent silicon nitride layer. These two support members are positioned together with the silicon nitride layers facing each other with a rigid spacer layer disposed therebetween. The rigid spacer layer defines one or more chambers in which a biological sample may be provided and fast frozen with a high degree of control of the ice thickness.

A grid assembly for cryo-electron microscopy may be fabricated using standard nanofabrication processes. The grid assembly may comprise two support members, each support member comprising a silicon substrate coated with an electron-transparent silicon nitride layer. These two support members are positioned together with the silicon nitride layers facing each other with a rigid spacer layer disposed therebetween. The rigid spacer layer defines one or more chambers in which a biological sample may be provided and fast frozen with a high degree of control of the ice thickness.

A portable XRF analyzer includes a hand shield to substantially block x-rays from impinging on a hand of a user. The portable XRF analyzer includes a heat sink over an x-ray source and a heat sink over an x-ray detector. The heat sinks are separated from each other by a thermally insulative material.

There is proposed a column supporting structure that includes a viscoelastic sheet, a supporting plate which holds the viscoelastic sheet, and a fixation portion which connects the supporting plate to each lens barrel. The viscoelastic sheet is disposed to extend in a plane perpendicular to one lens barrel or the other lens barrel.

A charged particle beam device includes a lens barrel having a charged particle source, a sample chamber in which a sample to be irradiated with a charged particle beam is provided, and a heat emission type electron source disposed in the sample chamber and maintained at a lower potential than that of an inner wall of the sample chamber, in which the inside of the sample chamber is cleaned by electrons (e−) emitted from the heat emission type electron source after a heating current is generated by applying a voltage from an electron source power supply. The heat emission type electron source is maintained at a lower potential than that of the inner wall of the sample chamber by applying a negative voltage to the heat emission type electron source using a bias power supply. A magnitude of the negative voltage applied to the heat emission type electron source is preferably about 30 to 1000 V, particularly preferably about 60 to 120 V.

A specimen holder for a Charged Particle Microscope is disclosed. The holder has a support structure with an elongated member including a specimen mounting zone. The specimen mounting zone comprises a rotor with an axis perpendicular to the elongated member with a paddle connected to it which may be rotated. Specimens may be mounted on the paddle so that rotation of the paddle allows specimens to be rotated and/or inverted for microscopic observation on both sides. Specimens may either be directly mounted on the paddle, or on a grid, half-moon grid, lift-out grid, aperture frame, dielectric film, etc.

A specimen holder for a Charged Particle Microscope is disclosed. The holder has a support structure with an elongated member including a specimen mounting zone. The specimen mounting zone comprises a rotor with an axis perpendicular to the elongated member with a paddle connected to it which may be rotated. Specimens may be mounted on the paddle so that rotation of the paddle allows specimens to be rotated and/or inverted for microscopic observation on both sides. Specimens may either be directly mounted on the paddle, or on a grid, half-moon grid, lift-out grid, aperture frame, dielectric film, etc.

Disclosed is a charged particle beam apparatus wherein a partitioning film capable of transmitting a charged particle beam is provided between a charged particle optical system and a sample, said charged particle beam apparatus eliminating a contact between the sample and the partitioning film even in the cases where the sample has recesses and protrusions. On the basis of detection signals or an image generated on the basis of the detection signals, a distance between a sample and a partitioning film is monitored, said detection signals being outputted from a detector that detects secondary charged particles discharged from the sample due to irradiation of a primary charged particle beam.