Patents by Inventor Vassilios Papageorgiou

Vassilios Papageorgiou 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).

  • Publication number: 20120129308
    Abstract: A silicon/germanium material and a silicon/carbon material may be provided in transistors of different conductivity type on the basis of an appropriate manufacturing regime without unduly contributing to overall process complexity. Furthermore, appropriate implantation species may be provided through exposed surface areas of the cavities prior to forming the corresponding strained semiconductor alloy, thereby additionally contributing to enhanced overall transistor performance. In other embodiments a silicon/carbon material may be formed in a P-channel transistor and an N-channel transistor, while the corresponding tensile strain component may be overcompensated for by means of a stress memorization technique in the P-channel transistor. Thus, the advantageous effects of the carbon species, such as enhancing overall dopant profile of P-channel transistors, may be combined with an efficient strain component while enhanced overall process uniformity may also be accomplished.
    Type: Application
    Filed: January 31, 2012
    Publication date: May 24, 2012
    Applicant: GLOBALFOUNDRIES INC.
    Inventors: Jan Hoentschel, Vassilios Papageorgiou, Belinda Hannon
  • Patent number: 8154084
    Abstract: A silicon/germanium material and a silicon/carbon material may be provided in transistors of different conductivity type on the basis of an appropriate manufacturing regime without unduly contributing to overall process complexity. Furthermore, appropriate implantation species may be provided through exposed surface areas of the cavities prior to forming the corresponding strained semiconductor alloy, thereby additionally contributing to enhanced overall transistor performance. In other embodiments a silicon/carbon material may be formed in a P-channel transistor and an N-channel transistor, while the corresponding tensile strain component may be overcompensated for by means of a stress memorization technique in the P-channel transistor. Thus, the advantageous effects of the carbon species, such as enhancing overall dopant profile of P-channel transistors, may be combined with an efficient strain component while enhanced overall process uniformity may also be accomplished.
    Type: Grant
    Filed: May 28, 2009
    Date of Patent: April 10, 2012
    Assignee: GLOBALFOUNDRIES Inc.
    Inventors: Jan Hoentschel, Vassilios Papageorgiou, Belinda Hannon
  • Patent number: 8138050
    Abstract: Transistor characteristics may be adjusted on the basis of asymmetrically formed cavities in the drain and source areas so as to maintain a strain-inducing mechanism while at the same time providing the possibility of obtaining asymmetric configuration of the drain and source areas while avoiding highly complex implantation processes. For this purpose, the removal rate during a corresponding cavity etch process may be asymmetrically modified on the basis of a tilted ion implantation process.
    Type: Grant
    Filed: September 9, 2009
    Date of Patent: March 20, 2012
    Assignee: GLOBALFOUNDRIES Inc.
    Inventors: Vassilios Papageorgiou, Jan Hoentschel, Robert Mulfinger, Casey Scott
  • Patent number: 8124467
    Abstract: In sophisticated P-channel transistors, a high germanium concentration may be used in a silicon/germanium alloy, wherein an additional semiconductor cap layer may provide enhanced process conditions during the formation of a metal silicide. For example, a silicon layer may be formed on the silicon/germanium alloy, possibly including a further strain-inducing atomic species other than germanium, in order to provide a high strain component while also providing superior conditions during the silicidation process.
    Type: Grant
    Filed: March 30, 2010
    Date of Patent: February 28, 2012
    Assignee: GLOBALFOUNDRIES Inc.
    Inventors: Stephan Kronholz, Vassilios Papageorgiou, Maciej Wiatr
  • Patent number: 8018260
    Abstract: The device degradation of integrated circuits may be compensated for by appropriately adapting the duty cycle of the clock signal. For this purpose, a correlation between the duty cycle and the overall performance characteristics of the integrated circuit may be established and may be used during the normal field operation of the device in order to modify the duty cycle. Hence, an efficient control strategy may be implemented since the duty cycle may be efficiently controlled, while at the same time a change of clock signal frequency and/or an increase of supply voltage may not be required.
    Type: Grant
    Filed: October 23, 2009
    Date of Patent: September 13, 2011
    Assignee: Advanced Micro Devices, Inc.
    Inventors: Vassilios Papageorgiou, Maciej Wiatr, Jan Hoentschel
  • Publication number: 20100327358
    Abstract: The PN junction of a substrate diode in a sophisticated semiconductor device may be formed on the basis of an embedded in situ N-doped semiconductor material thereby providing superior diode characteristics. For example, a silicon/carbon semiconductor material may be formed in a cavity in the substrate material, wherein the size and shape of the cavity may be selected so as to avoid undue interaction with metal silicide material.
    Type: Application
    Filed: June 24, 2010
    Publication date: December 30, 2010
    Inventors: Stephan Kronholz, Roman Boschke, Vassilios Papageorgiou, Maciej Wiatr
  • Patent number: 7855118
    Abstract: By providing a substantially non-damaged semiconductor region between a pre-amorphization region and the gate electrode structure, an increase of series resistance at the drain side during the re-crystallization may be reduced, thereby contributing to overall transistor performance, in particular in the linear operating mode. Thus, symmetric and asymmetric transistor architectures may be achieved with enhanced performance without unduly adding to overall process complexity.
    Type: Grant
    Filed: April 14, 2009
    Date of Patent: December 21, 2010
    Assignee: Advanced Micro Devices, Inc.
    Inventors: Jan Hoentschel, Uwe Griebenow, Vassilios Papageorgiou
  • Publication number: 20100301421
    Abstract: Performance of P-channel transistors may be enhanced on the basis of an embedded strain-inducing semiconductor alloy by forming a gate electrode structure on the basis of a high-k dielectric material in combination with a metal-containing cap layer in order to obtain an undercut configuration of the gate electrode structure. Consequently, the strain-inducing semiconductor alloy may be formed on the basis of a sidewall spacer of minimum thickness in order to position the strain-inducing semiconductor material closer to a central area of the channel region.
    Type: Application
    Filed: May 3, 2010
    Publication date: December 2, 2010
    Inventors: Stephan Kronholz, Markus Lenski, Vassilios Papageorgiou
  • Publication number: 20100289114
    Abstract: The PN junction of a substrate diode in a sophisticated SOI device may be formed on the basis of an embedded in situ doped semiconductor material, thereby providing superior diode characteristics. For example, a silicon/germanium semiconductor material may be formed in a cavity in the substrate material, wherein the size and shape of the cavity may be selected so as to avoid undue interaction with metal silicide material.
    Type: Application
    Filed: May 10, 2010
    Publication date: November 18, 2010
    Inventors: Stephan KRONHOLZ, Roman BOSCHKE, Vassilios PAPAGEORGIOU, Maciej WIART
  • Publication number: 20100244107
    Abstract: In sophisticated P-channel transistors, a high germanium concentration may be used in a silicon/germanium alloy, wherein an additional semiconductor cap layer may provide enhanced process conditions during the formation of a metal silicide. For example, a silicon layer may be formed on the silicon/germanium alloy, possibly including a further strain-inducing atomic species other than germanium, in order to provide a high strain component while also providing superior conditions during the silicidation process.
    Type: Application
    Filed: March 30, 2010
    Publication date: September 30, 2010
    Inventors: Stephan Kronholz, Vassilios PAPAGEORGIOU, Maciej WIATR
  • Publication number: 20100219475
    Abstract: Different strain-inducing semiconductor alloys may be incorporated into the drain and source areas of different transistors in sophisticated semiconductor devices by at least patterning the corresponding cavities in a common manufacturing sequence. Thus, the etch process may be performed on the basis of a high degree of uniformity and the subsequent epitaxial growth processes may, in some illustrative embodiments, be accomplished on the basis of only one additional lithography step.
    Type: Application
    Filed: February 23, 2010
    Publication date: September 2, 2010
    Inventors: Stephan Kronholz, Vassilios Papageorgiou
  • Publication number: 20100221883
    Abstract: The concentration of a non-silicon species in a semiconductor alloy, such as a silicon/germanium alloy, may be increased after a selective epitaxial growth process by oxidizing a portion of the semiconductor alloy and removing the oxidized portion. During the oxidation, preferably the silicon species may react to form a silicon dioxide material while the germanium species may be driven into the remaining semiconductor alloy, thereby increasing the concentration thereof. Consequently, the threshold adjustment of sophisticated transistors may be accomplished with enhanced process uniformity on the basis of a given parameter setting for the epitaxial growth process while nevertheless providing a high degree of flexibility in adjusting the composition of the threshold adjusting material.
    Type: Application
    Filed: February 18, 2010
    Publication date: September 2, 2010
    Inventors: Stephan Kronholz, Vassilios Papageorgiou, Martin Trentzsch
  • Publication number: 20100193882
    Abstract: The dopant profile of a transistor may be obtained on the basis of an in situ doped strain-inducing semiconductor alloy wherein a graded dopant concentration may be established along the height direction. Consequently, the semiconductor alloy may be positioned in close proximity to the channel region, thereby enhancing the overall strain-inducing efficiency, while not unduly compromising the finally obtained dopant profile. Furthermore, additional implant species may be incorporated prior to selectively growing the semiconductor alloy, thereby avoiding implantation-induced relaxation of the internal strain.
    Type: Application
    Filed: January 18, 2010
    Publication date: August 5, 2010
    Inventors: Jan Hoentschel, Vassilios Papageorgiou, Uwe Griebenow
  • Publication number: 20100193866
    Abstract: In sophisticated semiconductor devices, an asymmetric transistor configuration may be obtained on the basis of an asymmetric well implantation while avoiding a tilted implantation process. For this purpose, a graded implantation mask may be formed, such as a graded resist mask, which may have a higher ion blocking capability at the drain side compared to the source side of the asymmetric transistor. For instance, the asymmetric configuration may be obtained on the basis of a non-tilted implantation process with a high degree of performance gain and may be accomplished irrespective of the technology standard under consideration.
    Type: Application
    Filed: January 25, 2010
    Publication date: August 5, 2010
    Inventors: G Robert Mulfinger, Andy Wei, Jan Hoentschel, Vassilios Papageorgiou
  • Publication number: 20100163939
    Abstract: In sophisticated semiconductor devices, an asymmetric transistor configuration may be obtained on the basis of a strain-inducing semiconductor alloy. To this end, strain relaxation implantation processes may be performed at the drain side according to some illustrative embodiments, while, in other cases, the deposition of the strain-inducing alloy may be performed in an asymmetric manner with respect to the drain side and the source side of the transistor.
    Type: Application
    Filed: December 29, 2009
    Publication date: July 1, 2010
    Inventors: Stephan Kronholz, Vassilios Papageorgiou, Gunda Beernink, Jan Hoentschel
  • Publication number: 20100164020
    Abstract: In a transistor, a strain-inducing semiconductor alloy, such as silicon/germanium, silicon/carbon and the like, may be positioned very close to the channel region by providing gradually shaped cavities which may then be filled with the strain-inducing semiconductor alloy. For this purpose, two or more “disposable” spacer elements of different etch behavior may be used in order to define different lateral offsets at different depths of the corresponding cavities. Consequently, enhanced uniformity and, thus, reduced transistor variability may be accomplished, even for sophisticated semiconductor devices.
    Type: Application
    Filed: December 17, 2009
    Publication date: July 1, 2010
    Inventors: Stephan Kronholz, Vassilios Papageorgiou, Gunda Beernink
  • Publication number: 20100164530
    Abstract: In a sophisticated semiconductor device, FINFET elements may be provided with individually accessible semiconductor fins which may be connected to a controllable inter-connect structure for appropriately adjusting the transistor configuration, for instance with respect to current drive capability, replacing defective semiconductor fins and the like. Consequently, different transistor configurations may be obtained on the basis of a standard transistor cell architecture, which may result in increased production yield of highly complex manufacturing strategies in forming non-planar transistor devices.
    Type: Application
    Filed: December 29, 2009
    Publication date: July 1, 2010
    Inventors: Jan Hoentschel, Robert Mulfinger, Vassilios Papageorgiou
  • Publication number: 20100155727
    Abstract: By providing a test structure for evaluating the patterning process and/or the epitaxial growth process for forming embedded semiconductor alloys in sophisticated semiconductor devices, enhanced statistical relevance in combination with reduced test time may be accomplished.
    Type: Application
    Filed: March 3, 2010
    Publication date: June 24, 2010
    Inventors: ANTHONY MOWRY, Casey Scott, Vassilios Papageorgiou, Andy Wei, Markus Lenski, Andreas Gehring
  • Publication number: 20100134167
    Abstract: The device degradation of integrated circuits may be compensated for by appropriately adapting the duty cycle of the clock signal. For this purpose, a correlation between the duty cycle and the overall performance characteristics of the integrated circuit may be established and may be used during the normal field operation of the device in order to modify the duty cycle. Hence, an efficient control strategy may be implemented since the duty cycle may be efficiently controlled, while at the same time a change of clock signal frequency and/or an increase of supply voltage may not be required.
    Type: Application
    Filed: October 23, 2009
    Publication date: June 3, 2010
    Inventors: Vassilios Papageorgiou, Maciej Wiatr, Jan Hoentschel
  • Patent number: 7713763
    Abstract: By providing a test structure for evaluating the patterning process and/or the epitaxial growth process for forming embedded semiconductor alloys in sophisticated semiconductor devices, enhanced statistical relevance in combination with reduced test time may be accomplished.
    Type: Grant
    Filed: June 3, 2008
    Date of Patent: May 11, 2010
    Assignee: Advanced Micro Devices, Inc.
    Inventors: Anthony Mowry, Casey Scott, Vassilios Papageorgiou, Andy Wei, Markus Lenski, Andreas Gehring