Abstract: A rotatable surgical instrument having a protective hood with articulating bendable distal end is provided to improve and enable various orthopedic surgical procedures such as arthroscopy. The protective hood surrounds the surgical tool bit exposing only a portion of the tool bit for removing bone or soft tissue material and protects the nerve from the surgical tool bit. The protective hood can be controllably rotated from the instrument's hand piece to control the orientation of the attack angle of the surgical tool bit. Additionally, the bending of the distal end of the instrument can be controlled from the hand piece.

Abstract: A method of forming ultra-shallow p-type lightly doped drain (LDD) regions of a PMOS transistor in a surface of a substrate includes the steps of providing a gaseous mixture of an inert gas, a boron-containing source, and an optional carbon-containing source, wherein the concentration of the gaseous mixture is at least 99.5% dilute with the inert gas and the optional carbon-containing source, if present, forming the gaseous mixture into a plasma, and forming the LDD regions, wherein the forming step includes plasma-doping the boron into the substrate using the plasma. N-type pocket regions are formed in the substrate underneath and adjacent to the LDD regions, wherein for a PMOS transistor having a threshold voltage of 100 mV, the n-type pocket regions include phosphorous impurities at a dopant concentration of less than 6.0×1018 atoms/cm3 or a proportionately lower/higher dopant concentration for a lower/higher threshold voltage.