• DocumentCode
    3089500
  • Title

    Record-high 121/62 μA/μm on-currents 3D stacked epi-like Si FETs with and without metal back gate

  • Author

    Chih-Chao Yang ; Szu-Hung Chen ; Jia-Min Shieh ; Wen-Hsien Huang ; Tung-Ying Hsieh ; Chang-Hong Shen ; Tsung-Ta Wu ; Hsing-Hsiang Wang ; Yao-Jen Lee ; Fu-Ju Hou ; Ci-Ling Pan ; Kuei-Shu Chang-Liao ; Chenming Hu ; Fu-Liang Yang

  • Author_Institution
    Nat. Nano Device Labs., Hsinchu, Taiwan
  • fYear
    2013
  • fDate
    9-11 Dec. 2013
  • Abstract
    A sequential layered integration technology that can fabricate 3D stackable epi-like Si FETs with and without metal back gate (MBG) under sub-400°C are proposed in this article. With laser crystallized epi-like Si and CMP thinning processes for channel fabrication, 3D stackable ultra thin body (UTB) n/p-MOSFETs with low-subthreshold swings (88 and 121 mV/dec.) and high on-currents (121 and 62 μA/μm) are demonstrated. With additional metal back gate structure, UTB devices can be desirably operated in a positive or negative threshold voltage range with γ values of 0.51 (n-MOSFETs) and 0.56 (p-MOSFETs) for favoring its applications in 3D logic circuits. In addition, such thin and high quality channel and metal back gate scheme is not only promising for conventional p-n junction device but also junctionless (JL) scheme, which can simplify the fabrication and achieve further scaling.
  • Keywords
    MOSFET; chemical mechanical polishing; elemental semiconductors; logic circuits; silicon; 3D logic circuits; CMP thinning processes; JL scheme; MBG; Si; UTB devices; channel fabrication; junctionless scheme; laser crystallized processes; low-subthreshold swings; metal back gate structure; n-MOSFET; negative threshold voltage range; p-MOSFET; p-n junction device; positive threshold voltage range; record-high on-currents 3D stacked epi-like Si FET; sequential layered integration technology; temperature 400 degC; ultra thin body; Lasers; Logic gates; MOSFET; MOSFET circuits; Metals; Silicon; Three-dimensional displays;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Electron Devices Meeting (IEDM), 2013 IEEE International
  • Conference_Location
    Washington, DC
  • Type

    conf

  • DOI
    10.1109/IEDM.2013.6724719
  • Filename
    6724719