Abstract: Disclosed herein is an ion guide for guiding an ion beam along an ion path, said ion guide having a longitudinal axis which corresponds to said ion path. Said ion guide comprises a plurality of electrode plates which are arranged perpendicularly to the longitudinal axis, each electrode plate having an opening and being arranged such that said longitudinal axis extends through its respective opening, wherein said openings collectively define an ion guide volume. The ion guide extends or is configured to extend through a separation wall separating adjacent first and second pumping chambers. The ion guide has a first portion, in which gaps are formed between at least some of said electrode plates such that uncharged gas can escape from said ion guide volume, wherein said first portion is completely located in said first pumping chamber.

Abstract: Disclosed herein is an ion guide for guiding an ion beam along an ion path, said ion guide having a longitudinal axis corresponding to said ion path, said ion guide-comprising a plurality of elongate electrodes arranged around and extending along said longitudinal axis wherein an inner envelope of the plurality of electrodes defines an ion guide volume. Said elongate electrodes are formed by electrode wires, wherein adjacent electrode wires are arranged at an inter-wire distance. The ion guide comprises holding structures for supporting and for straightening the electrode wires by applying a tension or maintaining a tension applied to them. Any portion of said holding structures which is separated from said ion guide volume by less than the local inter-wire distance is made from a material having a resistivity of less than 1012 Ohm·cm, preferably of less than 109 Ohm·cm, or has a sheet resistivity of less than 1014 Ohm, preferably of less than 1010 Ohm on a surface facing said ion guide volume.

Abstract: Disclosed herein is an ion guide for guiding an ion beam along an ion path, said ion guide having a longitudinal axis corresponding to said ion path, said ion guide-comprising a plurality of elongate electrodes arranged around and extending along said longitudinal axis wherein an inner envelope of the plurality of electrodes defines an ion guide volume. Said elongate electrodes are formed by electrode wires, wherein adjacent electrode wires are arranged at an inter-wire distance. The ion guide comprises holding structures for supporting and for straightening the electrode wires by applying a tension or maintaining a tension applied to them. Any portion of said holding structures which is separated from said ion guide volume by less than the local inter-wire distance is made from a material having a resistivity of less than 1012 Ohm·cm, preferably of less than 109 Ohm·cm, or has a sheet resistivity of less than 1014 Ohm, preferably of less than 1010 Ohm on a surface facing said ion guide volume.

Abstract: Disclosed herein is an ion guide for guiding an ion beam along an ion path, said ion guide having a longitudinal axis which corresponds to said ion path. Said ion guide comprises a plurality of electrode plates which are arranged perpendicularly to the longitudinal axis, each electrode plate having an opening and being arranged such that said longitudinal axis extends through its respective opening, wherein said openings collectively define an ion guide volume. The ion guide extends or is configured to extend through a separation wall separating adjacent first and second pumping chambers. The ion guide has a first portion, in which gaps are formed between at least some of said electrode plates such that uncharged gas can escape from said ion guide volume, wherein said first portion is completely located in said first pumping chamber.

Abstract: The invention relates to a device and a method for automatically analysing the constituents of at least one analyte, especially by means of gel electrophoresis and/or isoelectric focussing, comprising at least one separating matrix, especially a gel. Each separating matrix is applied on at least one side in a supporting direction S of a supporting element, can be loaded with an analyte, and can be electrically contacted on opposite ends in a separating direction T in order to split the analyte into its constituents.

Abstract: The invention provides a charged particle beam device (1) to inspect or structure a specimen (3) comprising a charged particle beam source (5) to generate a charged particle beam (7), a beam optical system (16) to direct the charged particle beam (7) onto said specimen (3) and a gas supply system (10) providing a gas (12) for the charged particle beam device (1), whereby the gas supply system (10) comprises a plurality of at least ten tubes (14; 15; 22) to direct said gas (12) to a desired region (68) for interaction with the specimen (3). The gas support system enables the charged particle beam device to provide sufficient gas for decharging the specimen with a total gas flow which is significantly lower than the total gas flow of charged particle beam devices using previously known gas supply systems. A lower total gas flow helps to improve the vacuum in the charged particle beam region.

Abstract: The invention provides a charged particle beam device (1) to inspect or structure a specimen (3) comprising a charged particle beam source (5) to generate a charged particle beam (7), a beam optical system (16) to direct the charged particle beam (7) onto said specimen (3) and a gas supply system (10) providing a gas (12) for the charged particle beam device (1), whereby the gas supply system (10) comprises a plurality of at least ten tubes (14; 15; 22) to direct said gas (12) to a desired region (68) for interaction with the specimen (3). The gas support system enables the charged particle beam device to provide sufficient gas for decharging the specimen with a total gas flow which is significantly lower than the total gas flow of charged particle beam devices using previously known gas supply systems. A lower total gas flow helps to improve the vacuum in the charged particle beam region.

Abstract: The invention relates to a device and a method for automatically analysing the constituents of at least one analyte, especially by means of gel electrophoresis and/or isoelectric focussing, comprising at least one separating matrix, especially a gel. Each separating matrix is applied on at least one side in a supporting direction S of a supporting element, can be loaded with an analyte, and can be electrically contacted on opposite ends in a separating direction T in order to split the analyte into its constituents.