Patents by Inventor Biswajeet Guha

Biswajeet Guha 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).

  • Patent number: 11450738
    Abstract: Disclosed herein are source/drain regions in integrated circuit (IC) structures, as well as related methods and components. For example, in some embodiments, an IC structure may include: a channel region including a first semiconductor wire and a second semiconductor wire; and a source/drain region proximate to the channel region, wherein the source/drain region includes a first semiconductor portion proximate to an end of the first semiconductor wire, the source/drain region includes a second semiconductor portion proximate to an end of the second semiconductor wire, and the source/drain region includes a contact metal at least partially between the first semiconductor portion and the second semiconductor portion.
    Type: Grant
    Filed: March 27, 2020
    Date of Patent: September 20, 2022
    Assignee: Intel Corporation
    Inventors: Sean T. Ma, Anand S. Murthy, Glenn A. Glass, Biswajeet Guha
  • Patent number: 11430868
    Abstract: Integrated circuit structures including a buried etch-stop layer to help control transistor source/drain depth are provided herein. The buried etch-stop layer addresses the issue of the source/drain etch (or epi-undercut (EUC) etch) going below the bottom of the active height of the channel region, as such an issue can result in un-controlled sub-fin leakage that causes power consumption degradation and other undesired performance issues. The buried etch-stop layer is formed below the channel material, such as in the epitaxial stack that includes the channel material, and acts to slow the removal of material after the channel material has been removed when etching to form the source/drain trenches. In other words, the buried etch-stop layer includes different material from the channel material that can be etched, for at least one given etchant, at a relatively slower rate than the channel material to help control the source/drain trench depth.
    Type: Grant
    Filed: June 27, 2018
    Date of Patent: August 30, 2022
    Assignee: Intel Corporation
    Inventors: Rishabh Mehandru, Biswajeet Guha, Anupama Bowonder, Anand S. Murthy, Tahir Ghani, Stephen M. Cea
  • Publication number: 20220262957
    Abstract: Gate-all-around integrated circuit structures having asymmetric source and drain contact structures, and methods of fabricating gate-all-around integrated circuit structures having asymmetric source and drain contact structures, are described. For example, an integrated circuit structure includes a vertical arrangement of nanowires above a fin. A gate stack is over the vertical arrangement of nanowires. A first epitaxial source or drain structure is at a first end of the vertical arrangement of nanowires. A second epitaxial source or drain structure is at a second end of the vertical arrangement of nanowires. A first conductive contact structure is coupled to the first epitaxial source or drain structure. A second conductive contact structure is coupled to the second epitaxial source or drain structure. The second conductive contact structure is deeper along the fin than the first conductive contact structure.
    Type: Application
    Filed: May 5, 2022
    Publication date: August 18, 2022
    Inventors: Biswajeet GUHA, Mauro J. KOBRINSKY, Tahir GHANI
  • Patent number: 11417781
    Abstract: Gate-all-around integrated circuit structures including varactors are described. For example, an integrated circuit structure includes a varactor structure on a semiconductor substrate. The varactor structure includes a plurality of discrete vertical arrangements of horizontal nanowires. A plurality of gate stacks is over and surrounding corresponding ones of the plurality of discrete vertical arrangements of horizontal nanowires. The integrated circuit structure also includes a tap structure adjacent to the varactor structure on the semiconductor substrate. The tap structure includes a plurality of merged vertical arrangements of horizontal nanowires. A plurality of semiconductor structures is over and surrounding corresponding ones of the plurality of merged vertical arrangements of horizontal nanowires.
    Type: Grant
    Filed: March 25, 2020
    Date of Patent: August 16, 2022
    Assignee: Intel Corporation
    Inventors: Ayan Kar, Saurabh Morarka, Carlos Nieva-Lozano, Kalyan Kolluru, Biswajeet Guha, Chung-Hsun Lin, Brian Greene, Tahir Ghani
  • Publication number: 20220254893
    Abstract: Self-aligned gate endcap architectures with gate-all-around devices having epitaxial source or drain structures are described. For example, a structure includes first and second vertical arrangements of nanowires, the nanowires of the second vertical arrangement of nanowires having a horizontal width greater than a horizontal width of the nanowires of the first vertical arrangement of nanowires. First and second gate stacks are over the first and second vertical arrangements of nanowires, respectively. A gate endcap isolation structure is between the first and second gate stacks, respectively. First epitaxial source or drain structures are at ends of the first vertical arrangement of nanowires and have an uppermost surface below an uppermost surface of the gate endcap isolation structure. Second epitaxial source or drain structures are at ends of the second vertical arrangement of nanowires and have an uppermost surface below the uppermost surface of the gate endcap isolation structure.
    Type: Application
    Filed: April 29, 2022
    Publication date: August 11, 2022
    Inventors: Leonard P. GULER, Biswajeet GUHA, Tahir GHANI, Swaminathan SIVAKUMAR
  • Patent number: 11411096
    Abstract: Embodiments herein describe techniques, systems, and method for a semiconductor device. A nanowire transistor may include a channel region including a nanowire above a substrate, a source electrode coupled to a first end of the nanowire through a first etch stop layer, and a drain electrode coupled to a second end of the nanowire through a second etch stop layer. A gate electrode may be above the substrate to control conductivity in at least a portion of the channel region. A first spacer may be above the substrate between the gate electrode and the source electrode, and a second spacer may be above the substrate between the gate electrode and the drain electrode. A gate dielectric layer may be between the channel region and the gate electrode. Other embodiments may be described and/or claimed.
    Type: Grant
    Filed: December 28, 2017
    Date of Patent: August 9, 2022
    Assignee: Intel Corporation
    Inventors: Karthik Jambunathan, Biswajeet Guha, Anand S. Murthy, Tahir Ghani
  • Publication number: 20220246721
    Abstract: A transistor structure includes a base and a body over the base. The body comprises a semiconductor material and has a first end portion and a second end portion. A gate structure is wrapped around the body between the first end portion and the second end portion, where the gate structure includes a gate electrode and a dielectric between the gate electrode and the body. A source is in contact with the first end portion and a drain is in contact with the second end portion. A first spacer material is on opposite sides of the gate electrode and above the first end portion. A second spacer material is adjacent the gate structure and under the first end portion of the nanowire body. The second spacer material is below and in contact with a bottom surface of the source and the drain.
    Type: Application
    Filed: April 20, 2022
    Publication date: August 4, 2022
    Applicant: INTEL CORPORATION
    Inventors: William HSU, Biswajeet GUHA, Leonard GULER, Souvik CHAKRABARTY, Jun Sung KANG, Bruce BEATTIE, Tahir GHANI
  • Publication number: 20220246759
    Abstract: Isolation schemes for gate-all-around (GAA) transistor devices are provided herein Integrated circuit structures including increased transistor source/drain contact area using a sacrificial source/drain layer are provided herein. In some cases, the isolation schemes include changing the semiconductor nanowires/nanoribbons in a targeted channel region between active or functional transistor devices to electrically isolate those active devices. The targeted channel region is referred to herein as a dummy channel region, as it is not used as an actual channel region for an active or functional transistor device. The semiconductor nanowires/nanoribbons in the dummy channel region can be changed by converting them to an electrical insulator and/or by adding dopant that is opposite in type relative to surrounding source/drain material (to create a p-n junction).
    Type: Application
    Filed: April 15, 2022
    Publication date: August 4, 2022
    Inventors: Rishabh MEHANDRU, Stephen M. CEA, Biswajeet GUHA, Tahir GHANI, William HSU
  • Patent number: 11404578
    Abstract: Gate all around semiconductor devices, such as nanowire or nanoribbon devices, are described that include a low dielectric constant (“low-?”) material disposed between a first nanowire closest to the substrate and the substrate. This configuration enables gate control over all surfaces of the nanowires in a channel region of a semiconductor device via the high-k dielectric material, while also preventing leakage current from the first nanowire into the substrate.
    Type: Grant
    Filed: June 22, 2018
    Date of Patent: August 2, 2022
    Assignee: Intel Corporation
    Inventors: Bruce E. Beattie, Leonard Guler, Biswajeet Guha, Jun Sung Kang, William Hsu
  • Patent number: 11398474
    Abstract: Neighboring gate-all-around integrated circuit structures having disjoined epitaxial source or drain regions, and methods of fabricating neighboring gate-all-around integrated circuit structures having disjoined epitaxial source or drain regions, are described. For example, a structure includes first and second vertical arrangements of nanowires, the nanowires of the second vertical arrangement of nanowires having a horizontal width greater than a horizontal width of the nanowires of the first vertical arrangement of nanowires. First and second gate stacks are over the first and second vertical arrangements of nanowires, respectively. First epitaxial source or drain structures are at ends of the first vertical arrangement of nanowires, and second epitaxial source or drain structures are at ends of the second vertical arrangement of nanowires. An intervening dielectric structure is between neighboring ones of the first epitaxial source or drain structures and of the second epitaxial source or drain structures.
    Type: Grant
    Filed: September 18, 2018
    Date of Patent: July 26, 2022
    Assignee: Intel Corporation
    Inventors: Leonard P. Guler, Biswajeet Guha, Tahir Ghani, Swaminathan Sivakumar
  • Patent number: 11374100
    Abstract: Embodiments of the disclosure are in the field of advanced integrated circuit structure fabrication and, in particular, integrated circuit structures having source or drain structures with a contact etch stop layer are described. In an example, an integrated circuit structure includes a fin including a semiconductor material, the fin having a lower fin portion and an upper fin portion. A gate stack is over the upper fin portion of the fin, the gate stack having a first side opposite a second side. A first epitaxial source or drain structure is embedded in the fin at the first side of the gate stack. A second epitaxial source or drain structure is embedded in the fin at the second side of the gate stack, the first and second epitaxial source or drain structures including a lower semiconductor layer, an intermediate semiconductor layer and an upper semiconductor layer.
    Type: Grant
    Filed: June 28, 2018
    Date of Patent: June 28, 2022
    Assignee: Intel Corporation
    Inventors: Cory Bomberger, Rishabh Mehandru, Anupama Bowonder, Biswajeet Guha, Anand Murthy, Tahir Ghani
  • Publication number: 20220199610
    Abstract: Substrate-less electrostatic discharge (ESD) integrated circuit structures, and methods of fabricating substrate-less electrostatic discharge (ESD) integrated circuit structures, are described. For example, a substrate-less integrated circuit structure includes a first fin and a second fin protruding from a semiconductor pedestal. An N-type region is in the first and second fins. A P-type region is in the semiconductor pedestal. A P/N junction is between the N-type region and the P-type region, the P/N junction on or in the semiconductor pedestal.
    Type: Application
    Filed: December 22, 2020
    Publication date: June 23, 2022
    Inventors: Biswajeet GUHA, Brian GREENE, Daniel SCHULMAN, William HSU, Chung-Hsun LIN, Curtis TSAI, Kevin FISCHER
  • Publication number: 20220199792
    Abstract: Fin shaping using templates, and integrated circuit structures resulting therefrom, are described. For example, integrated circuit structure includes a semiconductor fin having a protruding fin portion above an isolation structure above a substrate. The protruding fin portion has a vertical portion and one or more lateral recess pairs in the vertical portion. A gate stack is over and conformal with the protruding fin portion of the semiconductor fin. A first source or drain region is at a first side of the gate stack. A second source or drain region is at a second side of the gate stack opposite the first side of the gate stack.
    Type: Application
    Filed: March 10, 2022
    Publication date: June 23, 2022
    Inventors: Leonard P. GULER, Biswajeet GUHA, Mark ARMSTRONG, William HSU, Tahir GHANI, Swaminathan SIVAKUMAR
  • Patent number: 11367796
    Abstract: Gate-all-around integrated circuit structures having asymmetric source and drain contact structures, and methods of fabricating gate-all-around integrated circuit structures having asymmetric source and drain contact structures, are described. For example, an integrated circuit structure includes a vertical arrangement of nanowires above a fin. A gate stack is over the vertical arrangement of nanowires. A first epitaxial source or drain structure is at a first end of the vertical arrangement of nanowires. A second epitaxial source or drain structure is at a second end of the vertical arrangement of nanowires. A first conductive contact structure is coupled to the first epitaxial source or drain structure. A second conductive contact structure is coupled to the second epitaxial source or drain structure. The second conductive contact structure is deeper along the fin than the first conductive contact structure.
    Type: Grant
    Filed: September 18, 2018
    Date of Patent: June 21, 2022
    Assignee: Intel Corporation
    Inventors: Biswajeet Guha, Mauro J. Kobrinsky, Tahir Ghani
  • Patent number: 11355608
    Abstract: Self-aligned gate endcap architectures with gate-all-around devices having epitaxial source or drain structures are described. For example, a structure includes first and second vertical arrangements of nanowires, the nanowires of the second vertical arrangement of nanowires having a horizontal width greater than a horizontal width of the nanowires of the first vertical arrangement of nanowires. First and second gate stacks are over the first and second vertical arrangements of nanowires, respectively. A gate endcap isolation structure is between the first and second gate stacks, respectively. First epitaxial source or drain structures are at ends of the first vertical arrangement of nanowires and have an uppermost surface below an uppermost surface of the gate endcap isolation structure. Second epitaxial source or drain structures are at ends of the second vertical arrangement of nanowires and have an uppermost surface below the uppermost surface of the gate endcap isolation structure.
    Type: Grant
    Filed: September 24, 2018
    Date of Patent: June 7, 2022
    Assignee: Intel Corporation
    Inventors: Leonard P. Guler, Biswajeet Guha, Tahir Ghani, Swaminathan Sivakumar
  • Patent number: 11342411
    Abstract: A transistor structure includes a base and a body over the base. The body comprises a semiconductor material and has a first end portion and a second end portion. A gate structure is wrapped around the body between the first end portion and the second end portion, where the gate structure includes a gate electrode and a dielectric between the gate electrode and the body. A source is in contact with the first end portion and a drain is in contact with the second end portion. A first spacer material is on opposite sides of the gate electrode and above the first end portion. A second spacer material is adjacent the gate structure and under the first end portion of the nanowire body. The second spacer material is below and in contact with a bottom surface of the source and the drain.
    Type: Grant
    Filed: June 29, 2018
    Date of Patent: May 24, 2022
    Assignee: Intel Corporation
    Inventors: William Hsu, Biswajeet Guha, Leonard Guler, Souvik Chakrabarty, Jun Sung Kang, Bruce Beattie, Tahir Ghani
  • Patent number: 11335807
    Abstract: Isolation schemes for gate-all-around (GAA) transistor devices are provided herein. In some cases, the isolation schemes include changing the semiconductor nanowires/nanoribbons in a targeted channel region between active or functional transistor devices to electrically isolate those active devices. The targeted channel region is referred to herein as a dummy channel region, as it is not used as an actual channel region for an active or functional transistor device. The semiconductor nanowires/nanoribbons in the dummy channel region can be changed by converting them to an electrical insulator and/or by adding dopant that is opposite in type relative to surrounding source/drain material (to create a p-n junction). The isolation schemes described herein enable neighboring active devices to retain strain in the nanowires/nanoribbons of their channel regions, thereby improving device performance.
    Type: Grant
    Filed: June 29, 2018
    Date of Patent: May 17, 2022
    Assignee: Intel Corporation
    Inventors: Rishabh Mehandru, Stephen M. Cea, Biswajeet Guha, Tahir Ghani, William Hsu
  • Publication number: 20220131007
    Abstract: Epitaxial oxide plugs are described for imposing strain on a channel region of a proximate channel region of a transistor. The oxide plugs form epitaxial and coherent contact with one or more source and drain regions adjacent to the strained channel region. The epitaxial oxide plugs can be used to either impart strain to an otherwise unstrained channel region (e.g., for a semiconductor body that is unstrained relative to an underlying buffer layer), or to restore, maintain, or increase strain within a channel region of a previously strained semiconductor body. The epitaxial crystalline oxide plugs have a perovskite crystal structure in some embodiments.
    Type: Application
    Filed: January 6, 2022
    Publication date: April 28, 2022
    Inventors: Karthik JAMBUNATHAN, Biswajeet GUHA, Anupama BOWONDER, Anand S. MURTHY, Tahir GHANI
  • Patent number: 11302790
    Abstract: Fin shaping using templates, and integrated circuit structures resulting therefrom, are described. For example, integrated circuit structure includes a semiconductor fin having a protruding fin portion above an isolation structure above a substrate. The protruding fin portion has a vertical portion and one or more lateral recess pairs in the vertical portion. A gate stack is over and conformal with the protruding fin portion of the semiconductor fin. A first source or drain region is at a first side of the gate stack. A second source or drain region is at a second side of the gate stack opposite the first side of the gate stack.
    Type: Grant
    Filed: February 23, 2018
    Date of Patent: April 12, 2022
    Assignee: Intel Corporation
    Inventors: Leonard P. Guler, Biswajeet Guha, Mark Armstrong, William Hsu, Tahir Ghani, Swaminathan Sivakumar
  • Publication number: 20220102557
    Abstract: Self-aligned gate endcap (SAGE) architectures with gate-all-around devices, and methods of fabricating self-aligned gate endcap (SAGE) architectures with gate-all-around devices, are described. In an example, an integrated circuit structure includes a semiconductor fin above a substrate and having a length in a first direction. A nanowire is over the semiconductor fin. A gate structure is over the nanowire and the semiconductor fin, the gate structure having a first end opposite a second end in a second direction, orthogonal to the first direction. A pair of gate endcap isolation structures is included, where a first of the pair of gate endcap isolation structures is spaced equally from a first side of the semiconductor fin as a second of the pair of gate endcap isolation structures is spaced from a second side of the semiconductor fin.
    Type: Application
    Filed: December 13, 2021
    Publication date: March 31, 2022
    Inventors: Biswajeet GUHA, William HSU, Leonard P. GULER, Dax M. CRUM, Tahir GHANI