Abstract: Methods for the rapid detection of the presence or absence of a plurality of Bacterial Vaginosis-related (BV-related) bacteria and/or vulvovaginal candidiasis (VVC)-associated Candida in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting specific genes and kits are provided that are designed for the detection of BV-related bacteria and VVC-associated Candida.

Abstract: Improved methods of assessing status of a solid-tumor cancer in a subject involving detection of tumor-associated mutations in the subject's blood.

Abstract: Improved methods of assessing status of a solid tumor cancer in a subject involving detection of tumor-associated mutations in the subject's blood.

Abstract: In different embodiments of the present invention, systems, methods, and computer-readable storage media allow a user to analyze software application modules, during development of the software. The present invention may be used to analyze the software application modules, to identify vulnerabilities and to provide the user with actionable intelligence that may be used to improve the security of the software application modules. The actionable intelligence may include a list or groupings of the vulnerabilities ranked based on severability, type, and/or location.

Abstract: Improved methods of assessing status of a solid-tumor cancer in a subject involving detection of tumor-associated mutations in the subject's blood.

Abstract: In different embodiments of the present invention, systems, methods, and computer-readable storage media allow a user to analyze software application modules, during development of the software. The present invention may be used to analyze the software application modules, to identify vulnerabilities and to provide the user with actionable intelligence that may be used to improve the security of the software application modules. The actionable intelligence may include a list or groupings of the vulnerabilities ranked based on severability, type, and/or location.

Abstract: Improved methods of assessing status of a solid-tumor cancer in a subject involving detection of tumor-associated mutations in the subject's blood.

Abstract: Improved methods of assessing status of a solid tumor cancer in a subject involving detection of tumor-associated mutations in the subject's blood.

Abstract: The present invention discloses a method including: providing a substrate; forming a buried oxide layer over the substrate; forming a thin silicon body layer over the buried oxide layer, the thin silicon body layer having a thickness of 3-40 nanometers; forming a pad oxide layer over the thin silicon body layer; forming a silicon nitride layer over the pad oxide layer; forming a photoresist over the silicon nitride layer; forming an opening in the photoresist; removing the silicon nitride layer in the opening; partially or completely removing the pad oxide layer in the opening; removing the photoresist over the silicon nitride layer; forming a field oxide layer from the thin silicon body layer in the opening; removing the silicon nitride layer over the pad oxide layer; and removing the pad oxide layer over the thin silicon body layer.

Abstract: A method and device for improved salicide resistance in polysilicon gates under 0.20 ?m. The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack within inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers.

Abstract: A method and device for improved salicide resistance in polysilicon gates under 0.20 &mgr;m. The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with thin inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers.

Abstract: A semiconductor device having a novel spacer structure and method of fabrication. The present invention describes a semiconductor device which has an electrode with a first thickness. A silicide layer having a second thickness is formed on the electrode. A sidewall spacer which is formed adjacent to the electrode has a height which is greater than the sum of the thickness of the electrode and the thickness of the silicide layer.

Abstract: A semiconductor device having a novel spacer structure and method of fabrication. The present invention describes a semiconductor device which has an electrode with a first thickness. A silicide layer having a second thickness is formed on the electrode. A sidewall spacer which is formed adjacent to the electrode has a height which is greater than the sum of the thickness of the electrode and the thickness of the silicide layer.

Abstract: The present invention discloses a method including: providing a substrate; forming a buried oxide layer over the substrate; forming a thin silicon body layer over the buried oxide layer, the thin silicon body layer having a thickness of 3-40 nanometers; forming a pad oxide layer over the thin silicon body layer; forming a silicon nitride layer over the pad oxide layer; forming a photoresist over the silicon nitride layer; forming an opening in the photoresist; removing the silicon nitride layer in the opening; partially or completely removing the pad oxide layer in the opening; removing the photoresist over the silicon nitride layer; forming a field oxide layer from the thin silicon body layer in the opening; removing the silicon nitride layer over the pad oxide layer; and removing the pad oxide layer over the thin silicon body layer.

Abstract: The present invention pertains to a high-performance thin film transistor having a gate and an active region, whose active region comprises a poly-Si1-xGex alloy material and a channel layer of silicon, in which the channel layer of silicon is interposed between the poly-Si1-xGex alloy material and the gate, and a method for fabricating such a high-performance thin film transistor.

Abstract: The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with thin inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with recessed thin inner spacers and recessed thin outer spacers.

Abstract: The present invention pertains to a high-performance thin film transistor having a gate and an active region, whose active region comprises a poly-Si1−xGex alloy material and a channel layer of silicon, in which the channel layer of silicon is interposed between the poly-Si1−xGex alloy material and the gate, and a method for fabricating such a high-performance thin film transistor.

Abstract: A method and device for improved salicide resistance in polysilicon gates under 0.20 &mgr;m. The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with thin inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers.

Abstract: A semiconductor device having a novel spacer structure and method of fabrication. The present invention describes a semiconductor device which has an electrode with a first thickness. A silicide layer having a second thickness is formed on the electrode. A sidewall spacer which is formed adjacent to the electrode has a height which is greater than the sum of the thickness of the electrode and the thickness of the silicide layer.

Abstract: A method and device for improved salicide resistance in polysilicon gates under 0.20 &mgr;m. The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with thin inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers.