Abstract: A method for fabricating a semiconductor device. A gate is formed on a substrate. A spacer is formed on each sidewall of the gate. A hard mask layer is formed on the spacer. A recessed region is formed in the substrate and adjacent to the hard mask layer. An epitaxial layer is formed in the recessed region. The substrate is subjected to an ion implantation process to bombard particle defects on the hard mask layer with inert gas ions. An annealing process is performed to repair damages to the epitaxial layer caused by the ion implantation process. The hard mask layer is then removed.

Abstract: A method for fabricating a semiconductor device. A gate is formed on a substrate. A spacer is formed on each sidewall of the gate. A hard mask layer is formed on the spacer. A recessed region is formed in the substrate and adjacent to the hard mask layer. An epitaxial layer is formed in the recessed region. The substrate is subjected to an ion implantation process to bombard particle defects on the hard mask layer with inert gas ions. An annealing process is performed to repair damages to the epitaxial layer caused by the ion implantation process. The hard mask layer is then removed.

Abstract: A semiconductor structure includes a substrate, fin-shaped structures disposed on the substrate, an isolation layer disposed between the fin-shaped structures, and a doped region disposed in an upper portion of the isolation layer, where the doped region is doped with helium or neon.

Abstract: A semiconductor device includes a substrate including a plurality of transistor devices formed thereon, at least an epitaxial structure formed in between the transistor devices, and a tri-layered structure formed on the epitaxial structure. The epitaxial structure includes a first semiconductor material and a second semiconductor material, and a lattice constant of the second semiconductor material is larger than a lattice constant of the first semiconductor material. The tri-layered structure includes an undoped epitaxial layer, a metal-semiconductor compound layer, and a doped epitaxial layer sandwiched in between the undoped epitaxial layer and the metal-semiconductor compound layer. The undoped epitaxial layer and the doped epitaxial layer include at least the second semiconductor material.

Abstract: A method for manufacturing fins includes following steps. A substrate including a plurality of fins formed thereon is provided. At least an ion implantation is performed to the fins. A thermal process is performed after the ion implantation. An insulating layer is formed on the substrate, and the fins are embedded in the insulating layer. Thereafter, a portion of the insulating layer is removed to form an isolation structure on the substrate, and the fins are exposed from a top surface of the isolation structure. The insulating layer is formed after the ion implantation and the thermal process. Or, the isolation structure is formed before the ion implantation, or between the ion implantation and the thermal process.

Abstract: A method for manufacturing fins includes following steps. A substrate including a plurality of fins formed thereon is provided. At least an ion implantation is performed to the fins. A thermal process is performed after the ion implantation. An insulating layer is formed on the substrate, and the fins are embedded in the insulating layer. Thereafter, a portion of the insulating layer is removed to form an isolation structure on the substrate, and the fins are exposed from a top surface of the isolation structure. The insulating layer is formed after the ion implantation and the thermal process. Or, the isolation structure is formed before the ion implantation, or between the ion implantation and the thermal process.

Abstract: A method for manufacturing fins includes following steps. A substrate including a plurality of fins formed thereon is provided. At least an ion implantation is performed to the fins. A thermal process is performed after the ion implantation. An insulating layer is formed on the substrate, and the fins are embedded in the insulating layer. Thereafter, a portion of the insulating layer is removed to form an isolation structure on the substrate, and the fins are exposed from a top surface of the isolation structure. The insulating layer is formed after the ion implantation and the thermal process. Or, the isolation structure is formed before the ion implantation, or between the ion implantation and the thermal process.

Abstract: A semiconductor device includes a substrate including a plurality of transistor devices formed thereon, at least an epitaxial structure formed in between the transistor devices, and a tri-layered structure formed on the epitaxial structure. The epitaxial structure includes a first semiconductor material and a second semiconductor material, and a lattice constant of the second semiconductor material is larger than a lattice constant of the first semiconductor material. The tri-layered structure includes an undoped epitaxial layer, a metal-semiconductor compound layer, and a doped epitaxial layer sandwiched in between the undoped epitaxial layer and the metal-semiconductor compound layer. The undoped epitaxial layer and the doped epitaxial layer include at least the second semiconductor material.

Abstract: A semiconductor device includes a substrate including a plurality of transistor devices formed thereon, at least an epitaxial structure formed in between the transistor devices, and a tri-layered structure formed on the epitaxial structure. The epitaxial structure includes a first semiconductor material and a second semiconductor material, and a lattice constant of the second semiconductor material is larger than a lattice constant of the first semiconductor material. The tri-layered structure includes an undoped epitaxial layer, a metal-semiconductor compound layer, and a doped epitaxial layer sandwiched in between the undoped epitaxial layer and the metal-semiconductor compound layer. The undoped epitaxial layer and the doped epitaxial layer include at least the second semiconductor material.