摘要:
According to one embodiment, a nonvolatile semiconductor memory device includes a first memory portion. The first memory portion includes a first base semiconductor layer, a first electrode, a first channel semiconductor layer, a first base tunnel insulating film, a first channel tunnel insulating, a first charge retention layer and a first block insulating film. The first channel semiconductor layer is provided between the first base semiconductor layer and the first electrode, and includes a first channel portion. The first base tunnel insulating film is provided between the first base semiconductor layer and the first channel semiconductor layer. The first channel tunnel insulating film is provided between the first electrode and the first channel portion. The first charge retention layer is provided between the first electrode and the first channel tunnel insulating film. The first block insulating film is provided between the first electrode and the first charge retention layer.
摘要:
A semiconductor device has a semiconductor substrate, and a semiconductor element having an FET on the semiconductor substrate and comprises a different threshold voltage depending on an OFF state and an ON state. The semiconductor element has an insulating film disposed above a part where a channel of the semiconductor substrate is formed, a gate electrode disposed above the insulating film, and a charge trap film disposed between the insulating film and the gate electrode, and to exchange more electrons with the gate electrode than with the channel.
摘要:
According to one embodiment, a semiconductor memory device includes a stacked body, a semiconductor pillar, an insulating film, and a charge storage film. The stacked body includes a plurality of electrode films stacked with an inter-layer insulating film provided between the electrode films. The semiconductor pillar pierces the stacked body. The insulating film is provided between the semiconductor pillar and the electrode films on an outer side of the semiconductor pillar with a gap interposed. The charge storage film is provided between the insulating film and the electrode films. The semiconductor pillar includes germanium. An upper end portion of the semiconductor pillar is supported by an interconnect provided above the stacked body.
摘要:
According to one embodiment, a nonvolatile semiconductor memory device includes a stacked body, a second insulating layer, a select gate, a memory hole, a memory film, a channel body, a first semiconductor layer, and a second semiconductor layer. The select gate is provided on the second insulating layer. The memory film is provided on an inner wall of the memory hole. The channel body is provided inside the memory film. The first semiconductor layer is provided on an upper surface of the channel body. The second semiconductor layer is provided on the first semiconductor layer. The first semiconductor layer contains silicon germanium. The second semiconductor layer contains silicon germanium doped with a first impurity. A boundary between the first semiconductor layer and the second semiconductor layer is provided above a position of an upper end of the select gate.
摘要:
According to one embodiment, a semiconductor memory device includes a stacked body, a semiconductor pillar, an insulating film, and a charge storage film. The stacked body includes a plurality of electrode films stacked with an inter-layer insulating film provided between the electrode films. The semiconductor pillar pierces the stacked body. The insulating film is provided between the semiconductor pillar and the electrode films on an outer side of the semiconductor pillar with a gap interposed. The charge storage film is provided between the insulating film and the electrode films. The semiconductor pillar includes germanium. An upper end portion of the semiconductor pillar is supported by an interconnect provided above the stacked body.
摘要:
Provided is a covering material, which includes a backing having an upper surface and a lower surface opposite to the upper surface, and a viscoelastic layer formed on the upper surface of the backing, in which the covering material is a covering material for covering a rectangular electric wire, and an adhesive force of the viscoelastic layer to the lower surface of the backing as measured by peeling at a peeling angle of 180° and a tensile rate of 300 mm/min is 0.05 N/20 mm or more and 10 N/20 mm or less. A covered rectangular electric wire includes the covering material and a rectangular electric wire covered with the covering material. An electrical device is produced by using the covered rectangular electric wire.
摘要:
A game device includes a shape data storage which stores data of an object disposed in a three-dimensional space, a first rendering unit which sets a point of view and a line of sight and renders the object by referencing data stored in the shape data storage, a viewpoint changing unit which receives a change instruction indicating a change of the point of view or line of sight and changes the point of view or line of sight. The viewpoint changing unit changes the point of view or line of sight to outside a predetermined range when the point of view or line of sight enters within the predetermined range.
摘要:
In a semiconductor layer, information is written by applying a first potential to a first electrode, applying a second potential that is lower than the first potential to all of back gate electrodes, applying a third potential that is higher than the first potential to the first to (i−1)th front gate electrodes, and applying a fourth potential that is between the second and third potentials to the ith and subsequent front gate electrodes, where “i” is a positive integer and identifies a specific location to which information is to be written.
摘要:
According to an aspect of the present invention, there is provided a nonvolatile semiconductor memory element including: a semiconductor substrate including: a source region; a drain region; and a channel region; a lower insulating film that is formed on the channel region; a charge storage film that is formed on the lower insulating film and that stores data; an upper insulating film that is formed on the charge storage film; and a control gate that is formed on the upper insulating film, wherein the upper insulating film includes: a first insulting film; and a second insulating film that is laminated with the first insulating film, and wherein the first insulating film is formed to have a trap level density larger than that of the second insulating film.
摘要:
A method for driving a nonvolatile semiconductor memory device is provided. The nonvolatile semiconductor memory device has source/drain diffusion layers spaced from each other in a surface portion of a semiconductor substrate, a laminated insulating film formed on a channel between the source/drain diffusion layers and including a charge storage layer, and a gate electrode formed on the laminated insulating film, the nonvolatile semiconductor memory device changing its data memory state by injection of charges into the charge storage layer. The method includes, before injecting charges to change the data memory state into the charge storage layer: injecting charges having a polarity identical to that of the charges to be injected; and further injecting charges having a polarity opposite to that of the injected charges.