The invention is directed at a method of positioning a carrier on a flat surface using an positioning member, wherein the carrier comprises an upper part and a base which are connected to each other such as to be arranged remote from each other, wherein the positioning member is arranged between the base and the upper part such that the base is located at an opposite side of the positioning member with respect to the upper part of the carrier, the upper part resting on the positioning member prior to placing of the carrier onto the flat surface, wherein the upper part comprises three engagement elements, and wherein the positioning member comprises a support surface for receiving the three engagement elements of the upper part, said support surface including a plurality of sockets forming a kinematic mount for said three engagement elements, wherein the base comprises three landing elements, each landing element being associated with a respective one of the three engagement elements, and the method comprising the steps of: operating the positioning member for moving the carrier relative to the flat surface in a direction parallel thereto such as to position the carrier above a landing position; performing an action of placing the carrier on the flat surface at the landing position, said action of placing comprising: moving the base towards the flat surface until at least one of said landing elements is in contact with the flat surface and an associated engagement element of said engagement elements is released from the kinematic mount; continue said moving of the base relative to the flat surface until all landing elements are in contact with the flat surface; and continue said action of placing the carrier until all engagement elements are released from the kinematic mount.

The invention relates to a probe system for a scanning probe microscope which (a) has a receptacle apparatus for a probe, (b) has a probe storage, which provides at least one probe for the scanning probe microscope, (c) wherein the probe, the probe storage, and the receptacle apparatus are embodied in such a way that the probe can form a releasable first connection with the probe storage and a releasable second connection with the receptacle apparatus, wherein the first connection and/or the second connection use a magnetic force; and wherein the receptacle apparatus and the probe storage are movable relative to one another in such a way for receiving the probe that the probe forms the second connection before the first connection is released.

The invention relates to a probe system for a scanning probe microscope which (a) has a receptacle apparatus for a probe, (b) has a probe storage, which provides at least one probe for the scanning probe microscope, (c) wherein the probe, the probe storage, and the receptacle apparatus are embodied in such a way that the probe can form a releasable first connection with the probe storage and a releasable second connection with the receptacle apparatus, wherein the first connection and/or the second connection use a magnetic force; and wherein the receptacle apparatus and the probe storage are movable relative to one another in such a way for receiving the probe that the probe forms the second connection before the first connection is released.

The invention relates to a top-cover for a controlled environmental system (CES) for use with a measurement technique that requires introducing a probe to a sample placed on a sample holder, a CES and a procedure to control the environment for a sample in a system in particular a CES during a measurement with a probe based technique.

The invention relates to a top-cover for a controlled environmental system (CES) for use with a measurement technique that requires introducing a probe to a sample placed on a sample holder, a CES and a procedure to control the environment for a sample in a system in particular a CES during a measurement with a probe based technique.

The invention relates to a measuring device for a scanning probe microscope including a measuring probe a first probe holding device on which the measuring probe is arranged, a detection device including a measurement light source which is adapted to provide light beams directed toward the measuring probe, a sensor device which is adapted, during the operation to receive measurement light beams reflected from the measuring probe. A first measuring arrangement in which the first probe holding device with the measuring probe is arranged in a first position spaced from the detection device, and a second measuring arrangement is formed in which a lengthening device is changeably arranged between the detection device and the measuring probe which lengthens the respective optical beam path for the light beams and the measurement light beams in such a manner that the first probe holding device or a second probe holding device which is different from the first probe holding device is arranged with the measuring probe at a second position spacing from the detection device which is greater than the first position spacing.

A method of assembling a group of devices, the method comprising the steps of: evacuating a space between each component of a first group of two or more components on a source device and a transfer device thereby to create a temporary bond between each component of the first group of two or more components and the transfer device; selectively removing the first group of two or more components from the source device whilst the transfer device is temporarily bonded to each component of the first group of two or more components on the source device; positioning the first group of two or more components on a host device; and decoupling the first group of two or more components from the transfer device, thereby to form a first group of assembled devices.

The disclosure provides a probe holding table and a medical equipment. The probe holding table comprises a faceplate and a fixing plate for supporting the faceplate. The faceplate is rotatably connected to the fixing plate. A plurality of probe placement units for installing probes are disposed on the faceplate, and each of the probe placement units is in electrical communication with an external power. The user may turn the faceplate to take the probes on the corresponding position, in particular, when more probes need to be used, the structure of the probe holding table is simpler than the normal fixed table, and easier to take the probes. Therefore, the medical equipment adopted the above probe holding table provides with the above advantages.

The invention is directed at a method of positioning a carrier on a flat surface using an positioning member, wherein the carrier comprises an upper part and a base which are connected to each other such as to be arranged remote from each other, wherein the positioning member is arranged between the base and the upper part such that the base is located at an opposite side of the positioning member with respect to the upper part of the carrier, the upper part resting on the positioning member prior to placing of the carrier onto the flat surface, wherein the upper part comprises three engagement elements, and wherein the positioning member comprises a support surface for receiving the three engagement elements of the upper part, said support surface including a plurality of sockets forming a kinematic mount for said three engagement elements, wherein the base comprises three landing elements, each landing element being associated with a respective one of the three engagement elements, and the method comprising the steps of: operating the positioning member for moving the carrier relative to the flat surface in a direction parallel thereto such as to position the carrier above a landing position; performing an action of placing the carrier on the flat surface at the landing position, said action of placing comprising: moving the base towards the flat surface until at least one of said landing elements is in contact with the flat surface and an associated engagement element of said engagement elements is released from the kinematic mount; continue said moving of the base relative to the flat surface until all landing elements are in contact with the flat surface; and continue said action of placing the carrier until all engagement elements are released from the kinematic mount.

The invention is directed at a method of positioning a carrier on a flat surface using an positioning member, wherein the carrier comprises an upper part and a base which are connected to each other such as to be arranged remote from each other, wherein the positioning member is arranged between the base and the upper part such that the base is located at an opposite side of the positioning member with respect to the upper part of the carrier, the upper part resting on the positioning member prior to placing of the carrier onto the flat surface, wherein the upper part comprises three engagement elements, and wherein the positioning member comprises a support surface for receiving the three engagement elements of the upper part, said support surface including a plurality of sockets forming a kinematic mount for said three engagement elements, wherein the base comprises three landing elements, each landing element being associated with a respective one of the three engagement elements, and the method comprising the steps of: operating the positioning member for moving the carrier relative to the flat surface in a direction parallel thereto such as to position the carrier above a landing position; performing an action of placing the carrier on the flat surface at the landing position, said action of placing comprising: moving the base towards the flat surface until at least one of said landing elements is in contact with the flat surface and an associated engagement element of said engagement elements is released from the kinematic mount; continue said moving of the base relative to the flat surface until all landing elements are in contact with the flat surface; and continue said action of placing the carrier until all engagement elements are released from the kinematic mount.