摘要:
A process for making a CMOS dual-well semiconductor structure with field isolation doping, wherein only a single lithographic masking step is required for providing self-alignment both of the wells to each other and also of the field isolation doping regions to the wells. The lithographic masking step forms a well mask and defines an oxidation barrier which acts as: an implant mask (absorber) during the ion-implantation of a field dopant of one type; an oxidation barrier over one well during the oxidation of the opposite-type well to form over the one well a sacrificial oxide layer which forms the alignment marks for subsequent formation of the field-doping regions; and a dopant-transmitter during the ion-implantation of an opposite-type field dopant which is simultaneously absorbed by the sacrificial oxide. As a result, there are formed field-doped oxide layers self-aligned to the wells so that, with a subsequent masking step, oxide field isolations are defined over the doped oxide layers. A heat cycle is then used to drive the field dopants into the corresponding field-doping regions.
摘要:
A method is provided for manufacturing semiconductor structures having dielectrically isolated silicon regions on one side of a silicon body. This is accomplished by forming in the silicon body a set of buried regions and a set of surface regions having characteristics which make them anodically etch slower than the remaining portion of the silicon body. These two sets of regions define portions in the silicon body which are anodically etched to form porous silicon regions which are oxidized to form an isolation structure that isolates the silicon surface regions from each other and the remaining portion of the silicon body. Typically in a P-type silicon body the buried and surface regions are N-type regions formed through ion implantation. Using these N-type regions to control the exposure of the P-type material to the anodic etching solution and the formation of the porous silicon regions, a structure is obtained wherein surface monocrystalline silicon regions are isolated from the rest of the silicon body by a uniform layer of silicon dioxide having a predetermined thickness.
摘要:
A method of fabricating a shared element semiconductor structure in which the insulating layer of a silicon-on-insulator structure is patterned to form a gate oxide. The bulk semiconductor underlying the insulating layer is defined into an FET (field-effect transistor) with its gate region below the gate oxide. The epitaxial layer above the insulating layer is defined into another FET with its drain region above the gate oxide, whereby the drain region also operates as the gate electrode for the bulk FET. Also described is a method of forming a silicon on insulator substrate with insulating layer usable as a gate oxide by means of bonding a silicon substrate to an oxidized epitaxial layer on another silicon seed substrate and then removing the seed substrate.
摘要:
Methods of forming memory cells, magnetic memory cell structures, and arrays of magnetic memory cell structures are disclosed. Embodiments of the methods include patterning a precursor structure to form a stepped structure including at least an upper discrete feature section and a lower feature section with a broader width, length, or both than the upper discrete feature section. The method uses patterning acts directed along a first axis, e.g., an x-axis, and then along a second axis, e.g., a y-axis, that is perpendicular to or about perpendicular to the first axis. The patterning acts may therefore allow for more unifoimity between a plurality of formed, neighboring cell core structures, even at dimensions below about thirty nanometers. Magnetic memory structures and memory cell arrays are also disclosed.
摘要:
An improved ETOX-type flash memory cell which requires only a single 5-volt power supply for read, write and erase functions. By substituting antimony or the combination of antimony and arsenic for the usual arsenic drain dopant, drain junction depth is reduced, due to the low diffusivity of antimony during high-temperature cycling. In order to maximize the concentration of antimony in the drain region, which is limited to approximately 3.times.10.sup.19 atoms/cm.sup.3 (due to solid solubility characteristics of antimony at standard silicon process activation temperatures in the 800.degree.-1,000.degree. C. range), an antimony implant concentration of approximately 1.times.10.sup.15 atoms/cm.sup.2 is employed. The resulting shallow junction raises the electric field strength at the cell's drain junction, thus increasing the hot electron generation rate and improving the programming efficiency. The decreased junction depth also acts to improve short channel effects such as punch-through and drain-to-gate capacitive coupling. The addition of a boron halo implant to obtain a traditional doubly diffused drain further enhances programming efficiency.
摘要:
A ferroelectric capacitor structure is designed for fabrication together with MOS devices on a semiconductor substrate. The ferroelectric capacitor includes a diffusion barrier layer above the surface of the substrate for preventing the materials of the ferroelectric capcacitor from contaminating the substrate or MOS devices. The ferroelectric capacitor comprises a bottom electrode, a thin film ferroelectric layer and a top electrode. An interlayer dielectric is formed to cover portions of the ferroelectric thin film and provide an opening therethrough for the top electrode. A ferroelectric memory cell comprises a field effect transistor together with a ferroelectric capacitor fabricated on a semiconductor substrate. In one configuration, the ferroelectric capacitor is offset from the field effect transistor, while in another configuration, the ferroelectric capacitor is substantially above the field effect transistor to provide greater density.
摘要:
A ferroelectric capacitor structure is designed for fabrication together with MOS devices on a semiconductor substrate. The ferroelectric capacitor includes a diffusion barrier above the surface of the substrate for preventing the materials of the ferroelectric capacitor from contaminating the substrate or MOS devices. The ferroelectric capacitor comprises a bottom electrode, a thin film ferroelectric layer and a top electrode. An interlayer dielectric is formed to cover portions of the ferroelectric thin film and provide an opening therethrough for the top electrode. A ferroelectric memory cell comprises a field effect transistor together with a ferroelectric capacitor fabricated on a semiconductor substrate. In one configuration, the ferroelectric capacitor is offset from the field effect transistor, while in another configuration, the ferroelectric capacitor is substantially above the field effect transistor to provide greater density.
摘要:
A method of erasing, programming, and verifying a flash electrically erasable programmable read-only memory where all cells are first erased to a high threshold voltage, preferably by simultaneous Fowler-Nordheim tunnelling, and then selected cells are programmed to a low threshold voltage using Fowler-Nordheim tunnelling. Programming is achieved by applying a negative voltage to the selected wordline and applying a positive voltage to the selected bitline. Only those cells which have both the wordline and bitline selected will have sufficient wordline-to-bitline voltage difference to cause programming. A key advantage of this new method is that a verification (read) procedure can be used to monitor for the desirable tight distribution, low threshold voltage V.sub.t on programmed cells and re-program only those cells which have a V.sub.t higher than the desired V.sub.t. The resulting tight distribution of cell current in programmed cells will lead to faster and more reliable read characteristics for these devices.
摘要:
Memory cells including cell cores having free regions are disclosed. The free regions exhibit a strain that affects a magnetization orientation within the cell core. A stressor structure may exert a stress upon at least a portion of the cell core to effect the strain state of the free region. Also disclosed are semiconductor device structures and systems including such memory cells as well as methods for forming such memory cells.
摘要:
A ferroelectric memory device having a folded bit line architecture. The ferroelectric memory device may include a selectable upper even memory cell connected to an upper even bit line, a sense amplifier having a first input and a second input; control circuitry operable to connect an upper odd bit line to a lower odd bit line at the first input of the sense amplifier, to connect the upper even bit line to the second input of the sense amplifier, and to isolate a lower even bit line from the second input of the sense amplifier; and a selectable lower odd reference cell, connected to the lower odd bit line.