A memory device includes a memory cell and a peripheral circuit. The memory cell includes a vertical transistor having a first terminal and a second terminal, a storage unit having a first end coupled to the first terminal of the vertical transistor, and a bit line coupled to the second terminal of the vertical transistor. The peripheral circuit is coupled to the bit line. The vertical transistor includes a semiconductor body extending in a first direction, and a gate structure coupled to at least one side of the semiconductor body. The bit line is disposed between the vertical transistor and the peripheral circuit along the first direction.

A memory device includes a memory cell and a peripheral circuit. The memory cell includes a vertical transistor having a first terminal and a second terminal, a storage unit having a first end coupled to the first terminal of the vertical transistor, and a bit line coupled to the second terminal of the vertical transistor. The peripheral circuit is coupled to the bit line. The vertical transistor includes a semiconductor body extending in a first direction, and a gate structure coupled to at least one side of the semiconductor body. The bit line is disposed between the vertical transistor and the peripheral circuit along the first direction.

A semiconductor device that has lower power consumption and is capable of non-destructive reading is provided. The semiconductor device includes a first transistor, a first FTJ element, and a second FTJ element. A first terminal of the first transistor is electrically connected to an output terminal of the first FTJ element and an input terminal of the second FTJ element. In data writing, polarization is caused in each of the first FTJ element and the second FTJ element in accordance with the data. In data reading, voltage with which the polarization does not change is applied between the output terminal of the first FTJ element and the input terminal of the second FTJ element. At this time, the first transistor is turned on, whereby a differential current between current flowing through the first FTJ element and current flowing through the second FTJ element flows through the first transistor. Obtaining the differential current using a read circuit or the like enables the data written to the first FTJ element and the second FTJ element to be read.

A semiconductor device that has lower power consumption and is capable of non-destructive reading is provided. The semiconductor device includes a first transistor, a first FTJ element, and a second FTJ element. A first terminal of the first transistor is electrically connected to an output terminal of the first FTJ element and an input terminal of the second FTJ element. In data writing, polarization is caused in each of the first FTJ element and the second FTJ element in accordance with the data. In data reading, voltage with which the polarization does not change is applied between the output terminal of the first FTJ element and the input terminal of the second FTJ element. At this time, the first transistor is turned on, whereby a differential current between current flowing through the first FTJ element and current flowing through the second FTJ element flows through the first transistor. Obtaining the differential current using a read circuit or the like enables the data written to the first FTJ element and the second FTJ element to be read.

A selection element including, in a first portion, a stack of amorphous layers, the thickness of each layer in the stack being smaller than or equal to 20 nm.

A semiconductor device includes: a semiconductor substrate including a first area and a second area; a plurality of memory cells provided in the first area; a mark provided in the second area and having a first side surface and a second side surface that intersects with the first side surface; and a plurality of patterns provided in the second area and provided on the first side surface and the second side surface.

A semiconductor device includes: a semiconductor substrate including a first area and a second area; a plurality of memory cells provided in the first area; a mark provided in the second area and having a first side surface and a second side surface that intersects with the first side surface; and a plurality of patterns provided in the second area and provided on the first side surface and the second side surface.

A semiconductor memory device includes: a first wiring extending in a first direction; a second wiring extending in a second direction that intersects with the first direction; a resistance change film provided between the first wiring and the second wiring and including at least one element selected from a group consisting of germanium, antimony, and tellurium; an electrode provided between the resistance change film and the first wiring; and a first film selectively provided between the electrode and the first wiring, in which the electrode includes a surface in contact with both of the first wiring and the first film.

A semiconductor memory device includes: a first wiring extending in a first direction; a second wiring extending in a second direction that intersects with the first direction; a resistance change film provided between the first wiring and the second wiring and including at least one element selected from a group consisting of germanium, antimony, and tellurium; an electrode provided between the resistance change film and the first wiring; and a first film selectively provided between the electrode and the first wiring, in which the electrode includes a surface in contact with both of the first wiring and the first film.

The present description concerns a method of manufacturing a device comprising a first portion having an array of memory cells formed therein and a second portion having transistors formed therein, the method comprising: a. the forming of first insulating trenches separating from one another the substrate regions of a same cell row, and b. the forming of second trenches separating from one another the regions of a same cell column, the second trenches having a height greater than the height of the first trenches, step a. comprising the independent forming of a lower portion and of an upper portion of each first trench, the forming of the upper portions comprising the deposition of a first insulating layer, the etching of the portions of the first insulating layer which are not located on the upper portions.