Patents by Inventor Elmar Platzgummer
Elmar Platzgummer has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20080283767Abstract: A multi-beam pattern definition device for use in a particle-beam processing or inspection apparatus, which is set up to be irradiated with a beam of electrically charged particles and allow passage of the beam through a plurality of apertures thus forming beamlets, which are imaged onto a target. A deflection array has a plurality of electrostatic deflector electrodes for each beamlet. Each deflector electrode can be applied an electrostatic potential individually. Counter electrodes are electrically connected to a counter potential independently of the deflection array through a counter-electrode array. The counter potentials may be a common ground potential or individual potentials in order to improve system reliability. In conjunction with an associated counter electrode, each deflector electrode deflects its beamlet sufficiently to deflect the beamlet off its nominal path when applied an activating voltage against the respective counter electrode.Type: ApplicationFiled: May 13, 2008Publication date: November 20, 2008Inventor: Elmar Platzgummer
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Publication number: 20080258084Abstract: A particle-beam projection processing apparatus for irradiating a target, with an illumination system for forming a wide-area illuminating beam of energetic electrically charged particles; a pattern definition means for positioning an aperture pattern in the path of the illuminating beam; and a projection system for projecting the beam thus patterned onto a target to be positioned after the projection system. A foil located across the path of the patterned beam is positioned between the pattern definition means and the position of the target at a location close to an image of the aperture pattern formed by the projection system.Type: ApplicationFiled: February 16, 2006Publication date: October 23, 2008Applicant: IMS Nanofabrication AGInventors: Elmar Platzgummer, Stefan Cernusca, Gerhard Stengl
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Publication number: 20080237460Abstract: For maskless irradiating a target with a beam of energetic electrically charged particles using a pattern definition means with a plurality of apertures and imaging the apertures in the pattern definition means onto a target which moves (v) relative to the pattern definition means laterally to the axis, the location of the image is moved along with the target, for a pixel exposure period within which a distance of relative movement of the target is covered which is at least a multiple of the width (w) of the aperture images as measured on the target, and after said pixel exposure period the location of the beam image is changed, which change of location generally compensates the overall movement of the location of the beam image.Type: ApplicationFiled: March 19, 2008Publication date: October 2, 2008Applicant: IMS NANOFABRICATION AGInventors: Heinrich Fragner, Elmar Platzgummer
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Publication number: 20080230711Abstract: In a particle-beam projection processing apparatus for irradiating a target by a beam of energetic electrically charged particles, including an illumination system, a pattern definition system for positioning an aperture arrangement composed of apertures transparent to the energetic particles in the path of the illuminating beam, and a projection system to project the beam onto a target, there is provided at least one plate electrode device, which has openings corresponding to the apertures of the pattern definition system and including a composite electrode composed of a number of partial electrodes being arranged non-overlapping and adjoining to each other, the total lateral dimensions of the composite electrode covering the aperture arrangement of the pattern definition system. The partial electrodes can be applied different electrostatic potentials.Type: ApplicationFiled: February 9, 2006Publication date: September 25, 2008Applicant: IMS Nanofabrication AGInventors: Elmar Platzgummer, Stefan Cemusca
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Publication number: 20080210887Abstract: A charged particle system comprises a particle source for generating a beam of charged particles and a particle-optical projection system. The particle-optical projection system comprises a focusing first magnetic lens (403) comprising an outer pole piece (411) having a radial inner end (411?), and an inner pole piece (412) having a lowermost end (412?) disposed closest to the radial inner end of the outer pole piece, a gap being formed by those; a focusing electrostatic lens (450) having at least a first electrode (451) and a second electrode (450) disposed in a region of the gap; and a controller (C) configured to control a focusing power of the first electrostatic lens based on a signal indicative of a distance of a surface of a substrate from a portion of the first magnetic lens disposed closest to the substrate.Type: ApplicationFiled: October 20, 2006Publication date: September 4, 2008Applicant: CARL ZEISS SMS GMBHInventors: Herbert Buschbeck, Elmar Platzgummer, Gerhard Stengl, Herbert Vonach
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Publication number: 20080203317Abstract: The invention relates to a multi-beam deflector array device for use in a particle-beam exposure apparatus employing a beam of charged particles, the multi-beam deflector array device having a plate-like shape with a membrane region, the membrane region including a first side facing towards the incoming beam of particles, an array of apertures, each aperture allowing passage of a corresponding beamlet formed out of the beam of particles, a plurality of depressions, each depression being associated with at least one aperture, and an array of electrodes, each aperture being associated with at least one electrode and each electrode being located in a depression, the electrodes being configured to realize a non-deflecting state, wherein the particles that pass through the apertures are allowed to travel along a desired path, and a deflecting state, wherein the particles are deflected off the desired path.Type: ApplicationFiled: February 27, 2008Publication date: August 28, 2008Applicants: IMS NANOFABRICATION AG, INSTITUT FUR MIKROELEKTRONIKInventors: Elmar Platzgummer, Hans Loschner, Samuel Kvasnica, Reinhard Springer, Mathias Irmscher, Florian Letzkus, Jorg Butschke
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Publication number: 20080149846Abstract: In a particle-beam apparatus for irradiating a target, a pattern defined in a pattern definer is projected onto the target through a projection system by a beam of energetic electrically charged particles of, largely, a species of a nominal mass having a nominal kinetic energy. To generate the beam, a particle source, a velocity-dependent deflector and an illumination optics system are provided. The velocity-dependent deflector includes a transversal dipole electrical field and/or a transversal dipole magnetic field, which act upon the particles so as to causing a deviation of the path of the particles with regard to the paths of the nominal species which is dependent on the velocity of the particles. A delimiter is provided as a component of the pattern definer or, preferably, the projection system, serving to remove particles whose paths are deviating from the nominal path.Type: ApplicationFiled: December 6, 2007Publication date: June 26, 2008Applicant: IMS Nanofabrication AGInventor: Elmar Platzgummer
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Patent number: 7388217Abstract: In a particle-optical projection system a pattern is imaged onto a target by means of energetic electrically charged particles. The pattern is represented in a patterned beam of said charged particles emerging from the object plane through at least one cross-over; it is imaged into an image with a given size and distortion. To compensate for the Z-deviation of the image position from the actual positioning of the target (Z denotes an axial coordinate substantially parallel to the optical axis), without changing the size of the image, the system includes a position detector for measuring the Z-position of several locations of the target, and a controller for calculating modifications of selected lens parameters of the final particle-optical lens and controlling said lens parameters according to said modifications.Type: GrantFiled: January 31, 2007Date of Patent: June 17, 2008Assignee: IMS Nanofabrication GmbHInventors: Herbert Buschbeck, Gertraud Lammer, Alfred Chalupka, Robert Nowak, Elmar Platzgummer, Gerhard Stengl
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Patent number: 7368738Abstract: In a pattern definition device for use in a particle-beam exposure apparatus a plurality of blanking openings (910) are arranged within a pattern definition field (bf) composed of a plurality of staggered lines (bl) of blanking openings, each provided with a deflection means controllable by a blanking signal (911); for the lines of blanking openings, according to a partition of the blanking openings of a line into several groups (g4,g5,g6), the deflection means of the blanking openings of each group are fed a common group blanking signal (911), and the group blanking signal of each group of a line is fed to the blanking means and connected to the respective blanking openings independently of the group blanking signals of the other groups of the same line.Type: GrantFiled: April 29, 2005Date of Patent: May 6, 2008Assignee: Carl Zeiss SMS GmbHInventor: Elmar Platzgummer
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Publication number: 20080099693Abstract: In a particle-beam projection processing apparatus a target (41) is irradiated by means of a beam (pb) of energetic electrically charged particles, using a projection system (103) to image a pattern presented in a pattern definition means (102) onto the target (41) held at position by means of a target stage; no elements—other than the target itself—obstruct the path of the beam after the optical elements of the projection system. In order to reduce contaminations from the target space into the projection system, a protective diaphragm (15) is provided between the projection system and the target stage, having a central aperture surrounding the path of the patterned beam, wherein at least the portions of the diaphragm defining the central aperture are located within a field-free space after the projection system (103).Type: ApplicationFiled: October 30, 2007Publication date: May 1, 2008Applicant: IMS Nanofabrication AGInventor: Elmar Platzgummer
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Patent number: 7276714Abstract: In a pattern definition device for use in a particle-beam processing apparatus a plurality of apertures (21) are arranged within a pattern definition field (pf) wherein the positions of the apertures (21) in the pattern definition field (pf) taken with respect to a direction (X, Y) perpendicular, or parallel, to the scanning direction are offset to each other by not only multiple integers of the effective width (w) of an aperture taken along said direction, but also multiple integers of an integer fraction of said effective width. The pattern definition field (pf) may be segmented into several domains (D) composed of a many staggered lines (pl) of apertures; along the direction perpendicular to the scanning direction, the apertures of a domain are offset to each other by multiple integers of the effective width (w), whereas the offsets of apertures of different domains are integer fractions of that width.Type: GrantFiled: April 29, 2005Date of Patent: October 2, 2007Assignee: IMS Nanofabrication GmbHInventors: Elmar Platzgummer, Stefan Cernusca
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Publication number: 20070125956Abstract: In a particle-optical projection system a pattern is imaged onto a target by means of energetic electrically charged particles. The pattern is represented in a patterned beam of said charged particles emerging from the object plane through at least one cross-over; it is imaged into an image with a given size and distortion. To compensate for the Z-deviation of the image position from the actual positioning of the target (Z denotes an axial coordinate substantially parallel to the optical axis), without changing the size of the image, the system includes a position detector for measuring the Z-position of several locations of the target, and a controller for calculating modifications of selected lens parameters of the final particle-optical lens and controlling said lens parameters according to said modifications.Type: ApplicationFiled: January 31, 2007Publication date: June 7, 2007Inventors: Herbert Buschbeck, Gertraud Lammer, Alfred Chalupka, Robert Nowak, Elmar Platzgummer, Gerhard Stengl
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Patent number: 7214951Abstract: A charged-particle multi-beam exposure apparatus (1) for exposure of a target (41) uses a plurality of beams of electrically charged particles, which propagate along parallel beam paths towards the target (41). For each particle beam an illumination system (10), a pattern definition means (20) and a projection optics system (30) are provided. The illuminating system (10) and/or the projection optics system (30) comprise particle-optical lenses having lens elements (L1, L2, L3, L4, L5) common to more than one particle beam. The pattern definition means (20) defines a multitude of beamlets in the respective particle beam, forming its shape into a desired pattern which is projected onto the target (41), by allowing it to pass only through a plurality of apertures defining the shape of beamlets permeating said apertures, and further comprises a blanking means to switch off the passage of selected beamlets from the respective paths of the beamlets.Type: GrantFiled: October 20, 2004Date of Patent: May 8, 2007Assignee: IMS Nanofabrication GmbHInventors: Gerhard Stengl, Elmar Platzgummer, Hans Loschner
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Patent number: 7041992Abstract: A charged-particle multi-beam exposure apparatus (1) for exposure of a target (41) uses a plurality of beams of electrically charged particles, which propagate along parallel beam paths towards the target (41). For each particle beam an illumination system (10), a pattern definition means (20) and a projection optics system (30) are provided. The illuminating system (10) and/or the projection optics system (30) comprise particle-optical lenses having lens elements (L1, L2, L3, L4, L5) common to more than one particle beam. The pattern definition means (20) defines a multitude of beamlets in the respective particle beam, forming its shape into a desired pattern which is projected onto the target (41), by allowing it to pass only through a plurality of apertures defining the shape of beamlets permeating said apertures, and further comprises a blanking means to switch off the passage of selected beamlets from the respective paths of the beamlets.Type: GrantFiled: October 20, 2004Date of Patent: May 9, 2006Assignee: IMS Nanofabrication GmbHInventors: Gerhard Stengl, Elmar Platzgummer, Hans Loschner
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Patent number: 7033647Abstract: Method of synthesizing carbon nano tubes (CNTs) on a catalyst layer formed on a support member, by catalytic deposition of carbon from a gaseous phase, whereby an ion beam is used prior to, during, and/or after formation of the carbon nano tubes for modifying the physical, chemical, and/or conductive properties of the carbon nanotubes.Type: GrantFiled: November 20, 2002Date of Patent: April 25, 2006Assignees: Electrovac, Fabrikation Elektrotechnischer Spezialartikel Gesellschaft M.B.H., IMS-Ionen Mikrofabrikationas SystemeInventors: Xinhe Tang, Klaus Mauthner, Ernst Hammel, Hans Löschner, Elmar Platzgummer, Gerhard Stengl
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Publication number: 20060068096Abstract: Method of synthesising carbon nano tubes (CNTs) on a catalyst layer formed on a support member, by catalytic deposition of carbon from a gaseous phase, whereby an ion beam is used prior to, during and/or after formation of said carbon nano tubes for modifying the physical, chemical and/or conductive properties of said carbon nano tubes.Type: ApplicationFiled: November 20, 2002Publication date: March 30, 2006Applicants: ELECTROVAC, FABRIKATION ELEKTROTECHNISCHER SPEZIALARTIKEL GESELLSCHAFT M.B.H., IMS - IONEN MIKROFABRIKATIONS SYSTEMEInventors: Xinhe Tang, Klaus Mauthner, Ernst Hammel, Hans Loschner, Elmar Platzgummer, Gerhard Stengl
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Patent number: 6989546Abstract: In a particle multibeam lithography apparatus an illumination system (242) having a particle source (203) produces an illuminating beam (205) of electrically charged particles, and a multibeam optical system (208) positioned after the illumination system (242) and comprising at least one aperture plate having an array of a plurality of apertures to form a plurality of sub-beams focuses the sub-beams onto the surface of a substrate (220), wherein for each sub-beam (207) a deflection unit (210) is positioned within the multibeam optical system and adapted to correct individual imaging aberrations of the respective sub-beam with respect to the desired target position and/or position the sub-beam during a writing process an the substrate surface.Type: GrantFiled: August 17, 1999Date of Patent: January 24, 2006Assignee: IMS-Innenmikrofabrikations Systeme GmbHInventors: Hans Loschner, Gerhard Stengl, Herbert Vonach, Elmar Platzgummer
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Publication number: 20050242303Abstract: In a pattern definition device for use in a particle-beam exposure apparatus a plurality of blanking openings (910) are arranged within a pattern definition field (bf) composed of a plurality of staggered lines (b1) of blanking openings, each provided with a deflection means controllable by a blanking signal (911); for the lines of blanking openings, according to a partition of the blanking openings of a line into several groups (g4,g5,g6), the deflection means of the blanking openings of each group are fed a common group blanking signal (911), and the group blanking signal of each group of a line is fed to the blanking means and connected to the respective blanking openings independently of the group blanking signals of the other groups of the same line.Type: ApplicationFiled: April 29, 2005Publication date: November 3, 2005Applicant: IMS Nanofabrication GmbHInventor: Elmar Platzgummer
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Publication number: 20050242302Abstract: In a pattern definition device for use in a particle-beam processing apparatus a plurality of apertures (21) are arranged within a pattern definition field (pf) wherein the positions of the apertures (21) in the pattern definition field (pf) taken with respect to a direction (X, Y) perpendicular, or parallel, to the scanning direction are offset to each other by not only multiple integers of the effective width (w) of an aperture taken along said direction, but also multiple integers of an integer fraction of said effective width. The pattern definition field (pf) may be segmented into several domains (D) composed of a many staggered lines (pl) of apertures; along the direction perpendicular to the scanning direction, the apertures of a domain are offset to each other by multiple integers of the effective width (w), whereas the offsets of apertures of different domains are integer fractions of that width.Type: ApplicationFiled: April 29, 2005Publication date: November 3, 2005Applicant: IMS Nanofabrication GmbHInventors: Elmar Platzgummer, Stefan Cernusca
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Publication number: 20050201246Abstract: In a particle-optical projection system (32) a pattern (B) is imaged onto a target (tp) by means of energetic electrically charged particles. The pattern is represented in a patterned beam (pb) of said charged particles emerging from the object plane through at least one cross-over (c); it is imaged into an image (S) with a given size and distortion. To compensate for the Z-deviation of the image (S) position from the actual positioning of the target (tp) (Z denotes an axial coordinate substantially parallel to the optical axis cx), without changing the size of the image (S), the system comprises a position detection means (ZD) for measuring the Z-position of several locations of the target (tp), a control means (33) for calculating modifications (cr) of selected lens parameters of the final particle-optical lens (L2) and controlling said lens parameters according to said modifications.Type: ApplicationFiled: March 15, 2005Publication date: September 15, 2005Applicant: IMS Nanofabrication GmbHInventors: Herbert Buschbeck, Gertraud Lammer, Alfred Chalupka, Robert Nowak, Elmar Platzgummer, Gerhard Stengl