摘要:
A field-effect transistor for a narrow-body, multiple-gate transistor such as a FinFET, tri-gate or Ω-FET is described. The corners of the channel region disposed beneath the gate are rounded n, for instance, oxidation steps, to reduce the comer effect associated with conduction initiating in the corners of the channel region.
摘要:
A method of fabricating a MOS transistor having a thinned channel region is described. The channel region is etched following removal of a dummy gate. The source and drain regions have relatively low resistance with the process.
摘要:
The fabrication of a tri-gate transistor formed with a replacement gate process is described. A nitride dummy gate, in one embodiment, is used allowing the growth of epitaxial source and drain regions immediately adjacent to the dummy gate. This reduces the external resistance.
摘要:
A structure to form an energy well within a Carbon nanotube is described. The structure includes a doped semiconductor region and an undoped semiconductor region. The Carbon nanotube is between the doped semiconductor region and the undoped semiconductor region. The structure also includes a delta doped semiconductor region. The undoped semiconductor region is between the Carbon nanotube and the delta doped region. The delta doped semiconductor region is doped opposite that of the doped semiconductor region.
摘要:
A contact architecture for nanoscale channel devices having contact structures coupling to and extending between source or drain regions of a device having a plurality of parallel semiconductor bodies. The contact structures being able to contact parallel semiconductor bodies having sub-lithographic pitch.
摘要:
A structure to form an energy well within a Carbon nanotube is described. The structure includes a doped semiconductor region and an undoped semiconductor region. The Carbon nanotube is between the doped semiconductor region and the undoped semiconductor region. The structure also includes a delta doped semiconductor region. The undoped semiconductor region is between the Carbon nanotube and the delta doped region. The delta doped semiconductor region is doped opposite that of the doped semiconductor region.
摘要:
A method for fabricating a field-effect transistor with a gate completely wrapping around a channel region is described. Ion implantation is used to make the oxide beneath the channel region of the transistor more etchable, thereby allowing the oxide to be removed below the channel region. Atomic layer deposition is used to form a gate dielectric and a metal gate entirely around the channel region once the oxide is removed below the channel region.
摘要:
A top metal gate carbon nanotube transistor may be provided which has acceptable electrical characteristics. The transistor may be formed over a structure including a semiconductor substrate made of an epitaxial layer and covered with an insulating layer. The carbon nanotubes may be deposited thereover, source and drains defined, and a metal gate electrode applied over a high dielectric constant gate dielectric. The processing may be such that the carbon nanotubes are protected from high temperature processing and excessively oxidizing atmospheres.
摘要:
A nanotube transistor, such as a carbon nanotube transistor, may be formed with a top gate electrode and a spaced source and drain. Conduction along the transistor from source to drain is controlled by the gate electrode. Underlying the gate electrode are at least two nanotubes. In some embodiments, the substrate may act as a back gate.
摘要:
An embodiment of the present invention is a technique to fabricate a semiconductor device having low off state leakage current. A gate structure of a first device is formed on a substrate layer having a hardmask. A channel is formed underneath the gate structure having a width to support the gate structure. An oxide or a dielectric layer is deposited on the substrate layer. A doped polysilicon layer is deposited on the oxide layer. A recessed junction area is formed on the doped polysilicon layer between the first device and an adjacent device.