摘要:
Trench isolation structure and method of forming trench isolation structures. The structures includes a trench in a silicon region of a substrate, the trench extending from a top surface of the substrate into the silicon region; an ion implantation stopping layer over sidewalls of the trench; a dielectric fill material filling remaining space in the trench, the dielectric fill material not including any materials found in the stopping layer; an N-type dopant species in a first region of the silicon region on a first side of the trench; the N-type dopant species in a first region of the dielectric material adjacent to the first side of the trench; a P-type dopant species in a second region of the silicon region on a second side of the trench; and the P-type dopant species in a second region of the dielectric material adjacent to the second side of the trench.
摘要:
Trench isolation structure and method of forming trench isolation structures. The structures includes a trench in a silicon region of a substrate, the trench extending from a top surface of the substrate into the silicon region; an ion implantation stopping layer over sidewalls of the trench; a dielectric fill material filling remaining space in the trench, the dielectric fill material not including any materials found in the stopping layer; an N-type dopant species in a first region of the silicon region on a first side of the trench; the N-type dopant species in a first region of the dielectric material adjacent to the first side of the trench; a P-type dopant species in a second region of the silicon region on a second side of the trench; and the P-type dopant species in a second region of the dielectric material adjacent to the second side of the trench.
摘要:
Trench isolation structure and method of forming trench isolation structures. The structures includes a trench in a silicon region of a substrate, the trench extending from a top surface of the substrate into the silicon region; an ion implantation stopping layer over sidewalls of the trench; a dielectric fill material filling remaining space in the trench, the dielectric fill material not including any materials found in the stopping layer; an N-type dopant species in a first region of the silicon region on a first side of the trench; the N-type dopant species in a first region of the dielectric material adjacent to the first side of the trench; a P-type dopant species in a second region of the silicon region on a second side of the trench; and the P-type dopant species in a second region of the dielectric material adjacent to the second side of the trench.
摘要:
A method of monitoring copper contamination. The method includes method, comprising: (a) ion-implanting an N-type dopant into a region of single-crystal silicon substrate, the region abutting a top surface of the substrate; (c) activating the N-type dopant by annealing the substrate at a temperature of 500° C. or higher in an inert atmosphere; (c) submerging, for a present duration of time, the substrate into an aqueous solution, the aqueous solution to be monitored for copper contamination; and (d) determining an amount of copper adsorbed from the aqueous solution by the region of the substrate.
摘要:
A method of improving the performance of a charged beam apparatus. The method including: providing a chamber having an interior surface; providing a pump port for evacuating the chamber; providing a substrate holder within the chamber; forming a charged particle beam within the chamber, the charged beam generated by a source and the charged particle beam striking the substrate; and placing one or more liners in contact with one or more different regions of the interior surface of the chamber, the liners preventing material generated by interaction of the charged beam and the substrate from coating the one or more different regions of the interior surface of the chamber.
摘要:
A method of improving the performance of charged beam apparatus. The method including: providing the apparatus, the apparatus comprising: a chamber having an interior surface; a pump port for evacuating the chamber; a substrate holder within the chamber; and a charged particle beam within the chamber, the charged beam generated by a source and the charged particle beam striking the substrate; and positioning one or more liners in contact with one or more different regions of the interior surface of the chamber, the liners preventing material generated by interaction of the charged beam and the substrate from coating the one or more different regions of the interior surface of the chamber.
摘要:
A method of monitoring copper contamination. The method includes method, comprising: (a) ion-implanting an N-type dopant into a region of single-crystal silicon substrate, the region abutting a top surface of the substrate; (c) activating the N-type dopant by annealing the substrate at a temperature of 500° C. or higher in an inert atmosphere; (c) submerging, for a present duration of time, the substrate into an aqueous solution, the aqueous solution to be monitored for copper contamination; and (d) determining an amount of copper adsorbed from the aqueous solution by the region of the substrate.
摘要:
A method of forming a nitrided silicon oxide layer. The method includes: forming a silicon dioxide layer on a surface of a silicon substrate; performing a rapid thermal nitridation of the silicon dioxide layer at a temperature of less than or equal to about 900° C. and a pressure greater than about 500 Torr to form an initial nitrided silicon oxide layer; and performing a rapid thermal oxidation or anneal of the initial nitrided silicon oxide layer at a temperature of less than or equal to about 900° C. and a pressure greater than about 500 Torr to form a nitrided silicon oxide layer. Also a method of forming a MOSFET with a nitrided silicon oxide dielectric layer.
摘要:
An integrated horn antenna device with an integrated circuit (IC) chip including a metallic horn structure having a wide aperture, a horizontal waveguide with a tapered via that electromagnetically communicates with a vertical waveguide structure to transmit energy to and from an electronic sub-component transceiver device forming part of the IC chip. Another embodiment of the invention comprises a plurality of multiple discrete IC chips having the integrated horn antenna devices incorporated therewith forming a module for data transmissions between these IC chips. Another embodiment of the invention includes additional external waveguide structures such as optical fibers external to the chips, where radiation is aligned between the horn structures and these waveguides. Dual damascene processing is used to fabricate the horn antenna device within the IC chip.
摘要:
A borderless contact to diffusion with respect to gate conductor is provided by employing a double insulating film stack as a mask for defining the gate conductor shapes for the entire chip and providing a relatively thin damage preventing layer on exposed conductive layer following defining the gate conductor shapes. In one embodiment, a borderless contact is provided by forming an insulating layer on a substrate, providing a conductive layer on the insulating layer, providing a second insulating layer on the conductive layer, providing a third insulating layer on the second insulating layer, removing preselected portions of the second and third insulating layers, providing a damage preventing layer in those areas where the second and third insulating layers have been removed, removing preselected portions of the third insulating layer, removing the damage preventing layer, removing exposed portions of the conductive layer, and removing now exposed portions of the second insulating layer.