A sample exchange device includes a first transport mechanism that includes a grip portion that grips a sample holding member and transports a sample holding member to a sample exchange chamber, a cooling unit that cools the sample exchange chamber, fiber sensors that detect whether or not the grip portion of the first transport mechanism grips the sample holding member in the sample exchange chamber, and a control unit. The control unit turns on the fiber sensors when the grip portion of the first transport mechanism enters the sample exchange chamber and turns off the fiber sensors after it is detected whether or not the grip portion of the first transport mechanism grips the sample holding member.

Disclosed herein is an image sensor comprising: a plurality of packages arranged in a plurality of layers; wherein each of the packages comprises an X-ray detector mounted on a printed circuit board (PCB); wherein the packages are mounted on one or more system PCBs; wherein within an area encompassing a plurality of the X-ray detectors in the plurality of packages, a dead zone of the packages in each of the plurality of layers is shadowed by the packages in the other layers.

A tool is provided for assembling a specimen carrier assembly in an electron imaging apparatus, the assembly comprising a specimen holder, an object grid containing a sample during measurement, and a C-shaped resilient fixing ring for removably fixing the object grid into a groove of the specimen holder. The tool comprises an elongate hollow handling device with a holding sleeve surrounding a cylindrical pin that is translatory movable within the holding sleeve in both directions between a first position in which the pin protrudes from the holding sleeve at its lower end and a second position in which the pin is retracted into the holding sleeve. The hollow handling device is configured such that the C-shaped fixing ring can be pushed into the specimen holder groove by moving the cylindrical pin into its first position. This allows the object grid to be conveniently and reliably fixed in the carrier assembly.

A fluid metering system for gas independent pressure and flow control through an electron microscope sample holder includes: a pressure control system that supplies gas; an inlet line providing gas from the pressure control system to the sample holder; an outlet line receiving gas from the sample holder; and a variable leak valve that controls gas flow in the outlet line. The gas flows from an upstream tank of the pressure control system through the sample holder and variable leak valve to a downstream tank of the pressure control system due to the pressure difference of the two tanks as the variable leak valve meters flow in the outlet line. Flow rates are established by monitoring pressure changes at source and collection tanks of known volumes with gas independent pressure gauges. A method of directing the gas flow to a residual gas analyzer (RGA) is also presented.

An e-beam apparatus is disclosed, the tool comprising an electron optics system configured to project an e-beam onto an object, an object table to hold the object, and a positioning device configured to move the object table relative to the electron optics system. The positioning device comprises a short stroke stage configured to move the object table relative to the electron optics system and a long stroke stage configured to move the short stroke stage relative to the electron optics system. The e-beam apparatus further comprises a magnetic shield to shield the electron optics system from a magnetic disturbance generated by the positioning device. The magnetic shield may be arranged between the positioning device and the electron optics system.

A fluid metering system for gas independent pressure and flow control through an electron microscope sample holder includes: a pressure control system that supplies gas; an inlet line providing gas from the pressure control system to the sample holder; an outlet line receiving gas from the sample holder; and a variable leak valve that controls gas flow in the outlet line. The gas flows from an upstream tank of the pressure control system through the sample holder and variable leak valve to a downstream tank of the pressure control system due to the pressure difference of the two tanks as the variable leak valve meters flow in the outlet line. Flow rates are established by monitoring pressure changes at source and collection tanks of known volumes with gas independent pressure gauges. A method of directing the gas flow to a residual gas analyzer (RGA) is also presented.

Disclosed herein are techniques directed toward a protective shutter for a charged particle microscope. An example apparatus at least includes a charged particle column and a focused ion beam (FIB) column, a gas injection nozzle coupled to a translation device, the translation device configured to insert the gas injection nozzle in close proximity to a stage, and a shutter coupled to the gas injection nozzle and arranged to be disposed between the sample and the SEM column when the gas injection nozzle is inserted in close proximity to the stage.

Air sensitive sample may be transferred between charged particle instruments or between charged particle instrument and a glove box using a sample transfer system. The sample transfer system includes a transfer shuttle for receiving a sample carrier and a transfer rod detachable coupled to the transfer shuttle. The transfer rod moves the sample carrier into or out of the transfer shuttle.

This disclosure provides systems, methods, and apparatus related to graphene. In one aspect, a method includes submerging a frame support in an etching solution that is contained in a container. A growth substrate, a graphene sheet disposed on the growth substrate, and a primary support disposed on the graphene sheet is placed on a surface of the etching solution. The growth substrate is dissolved in the etching solution to leave the graphene sheet and the primary support floating on a surface of the etching solution. The etching solution in the container is replaced with a washing solution. The washing solution is removed from the container so that the graphene sheet becomes disposed on the frame support.

An objective lens for forming an image of an object. The objective lens includes, sequentially from an image side to an object side, a first lens group having negative refractive power, and a second lens group having positive refractive power.