Abstract: According to one embodiment, a semiconductor memory device includes a memory cell, a sense amplifier, a first transfer transistor, a second transfer transistor, and a controller. The memory cell can store a first value and a second value. The sense amplifier amplifies the first value or the second value read from the memory cell to the sense node. The first transfer transistor has a first control terminal connected to the sense node. The second transfer transistor has a second control terminal connected to the sense node. The controller applies a backgate potential to backgate terminals of the first transfer transistor and the second transfer transistor.

Abstract: According to one embodiment, a non-volatile semiconductor memory device is disclosed. The device includes a semiconductor substrate, and a memory cell array provided on the semiconductor substrate. The memory cell array includes a plurality of memory transistors which are electrically rewritable and arranged in a three-dimensional manner. The device further includes a latch provided above the semiconductor substrate and configured to hold data that is to be written in the memory cell array. The latch includes a capacitor and a first field-effect transistor which is connected to the capacitor and includes a first oxide semiconductor layer.

Abstract: According to one embodiment, a semiconductor memory device includes a memory cell, a sense amplifier, a first transfer transistor, a second transfer transistor, and a controller. The memory cell can store a first value and a second value. The sense amplifier amplifies the first value or the second value read from the memory cell to the sense node. The first transfer transistor has a first control terminal connected to the sense node. The second transfer transistor has a second control terminal connected to the sense node. The controller applies a backgate potential to backgate terminals of the first transfer transistor and the second transfer transistor.

Abstract: According to one embodiment, a semiconductor memory device includes a memory cell, the cell includes a first capacitor which includes first and second electrodes, and a first transistor which includes first and second terminals and a first control terminal, the first terminal being connected to the first electrode, a first conductive line connected to the second terminal, a second conductive line connected to the second electrode, a sense amplifier, a switch element connected between the first conductive line and the sense amplifier, and a controller turning off the switch element in a write operation, applies a first potential to the first conductive line, and sets a potential of the second conductive line according to a value of write data to be written to the cell.

Abstract: A semiconductor memory device according to an embodiment includes: a semiconductor substrate; a plurality of first insulating layers and first conductive layers stacked alternately in a first direction above the semiconductor substrate; a first semiconductor layer extending in the first direction; and a memory layer disposed between one of the first insulating layers and the first semiconductor layer and between one of the first conductive layers and the first semiconductor layer, the memory layer including a charge accumulation layer, the first semiconductor layer and the memory layer having a gap, between one of the first insulating layers and the first semiconductor layer, and the first semiconductor layer and the memory layer being contacted each other, between one of the first conductive layers and the first semiconductor layer.

Abstract: According to one embodiment, an oxide semiconductor includes indium, gallium, and silicon. A concentration of the silicon in the oxide semiconductor is not less than 7 atomic percent and not more than 11 atomic percent.

Abstract: According to one embodiment, a semiconductor memory device includes a sense amplifier on a semiconductor substrate, a memory cell array including a memory cell above the sense amplifier, the memory cell including a capacitor and a first transistor, the capacitor including a first electrode and a second electrode, the first transistor including a first current path and a first control electrode controlling an on/off of the first current path, the first current path including a first terminal and a second terminal, the first terminal being electrically connected to the first electrode, and a first conductive line electrically connected to the second terminal and extending along an upper surface of the semiconductor substrate in a first direction, the first conductive line being electrically connected to the sense amplifier.

Abstract: According to one embodiment, an image sensor device includes a sensor array on a semiconductor substrate, the sensor array including blocks, each of the blocks including a pixel and outputting a signal of the pixel; a first insulating layer on the sensor array; semiconductor layers on the first insulating layer; analog-digital converting circuits on the semiconductor layers, the analog-digital converting circuits corresponding to the blocks and processing the signal; a second insulating layer on the first insulating layer and the analog-digital converting circuits; and interconnect portions electrically connecting the analog-digital converting circuits to the blocks via a region between the semiconductor layers, the interconnect portions extending across the first insulating layer and the second insulating layer.

Abstract: A semiconductor memory device of an embodiment comprises a memory cell. This memory cell comprises: an oxide semiconductor layer; a gate electrode; and a charge accumulation layer disposed between the oxide semiconductor layer and the gate electrode. This oxide semiconductor layer includes a stacked structure of an n type oxide semiconductor layer and a p type oxide semiconductor layer.

Abstract: A semiconductor memory device according to an embodiment includes: a semiconductor substrata; a plurality of first insulating layers and first conductive layers stacked alternately in a first direction above the semiconductor substrate; a first semiconductor layer extending in the first direction; and a memory layer disposed between one of the first insulating layers and the first semiconductor layer and between one of the first conductive layers and the first semiconductor layer, the memory layer including a charge accumulation layer, the first semiconductor layer and the memory layer having a gap, between one of the first insulating layers and the first semiconductor layer, and the first semiconductor layer and the memory layer being contacted each other, between one of the first conductive layers and the first semiconductor layer.

Abstract: According to one embodiment, a semiconductor memory device includes a sense amplifier on a semiconductor substrate, a memory cell array including a memory cell above the sense amplifier, the memory cell including a capacitor and a first transistor, the capacitor including a first electrode and a second electrode, the first transistor including a first current path and a first control electrode controlling an on/off of the first current path, the first current path including a first terminal and a second terminal, the first terminal being electrically connected to the first electrode, and a first conductive line electrically connected to the second terminal and extending along an upper surface of the semiconductor substrate in a first direction, the first conductive line being electrically connected to the sense amplifier.

Abstract: According to one embodiment, a semiconductor device includes a first complementary semiconductor device provided on a semiconductor substrate, and including a CMOS circuit, a metal electrode provided above the first complementary semiconductor device, a semiconductor layer provided above the metal electrode, including an nMOS region and a pMOS region separated from each other, and containing Ge; and a second complementary semiconductor device including an nMOSFET provided on the first portion of the semiconductor layer and a pMOSFET provided on the second portion of the semiconductor layer.

Abstract: According to one embodiment, a transistor includes a first electrode, a second electrode, a current path between the first and second electrodes, the current path including an oxide semiconductor layer, a control terminal which controls an on/off action of the current path, an insulating layer between the control terminal and the oxide semiconductor layer, a first oxide layer between the first electrode and the oxide semiconductor layer, the first oxide layer being different from the oxide semiconductor layer, and a second oxide layer between the second electrode and the oxide semiconductor layer, the second oxide layer being different from the oxide semiconductor layer.

Abstract: According to one embodiment, an oxide semiconductor includes indium, gallium, and silicon. A concentration of the silicon in the oxide semiconductor is not less than 7 atomic percent and not more than 11 atomic percent.

Abstract: An electrochemical sensor according to an embodiment, includes a first insulating film, an electrode, a semiconductor layer provided between the first insulating film and the electrode, and a charge storage layer provided between the electrode and the semiconductor layer.

Abstract: According to one embodiment, a sensing device includes a photodiode; a first transistor including a first terminal, a second terminal and a control terminal, the first terminal being connected to the photodiode; an electrode configured to detect a potential of the measurement target; a second transistor including a third terminal, a fourth terminal and a control terminal, the third terminal being connected to the electrode; and a charge storage connected to the second terminal of the first transistor and to the fourth terminal of the second transistor.

Abstract: A semiconductor memory device of an embodiment comprises a memory cell. This memory cell comprises: an oxide semiconductor layer; a gate electrode; and a charge accumulation layer disposed between the oxide semiconductor layer and the gate electrode. This oxide semiconductor layer includes a stacked structure of an n type oxide semiconductor layer and a p type oxide semiconductor layer.

Abstract: According to one embodiment, a semiconductor device includes a semiconductor layer including Ge; and a metal Ge compound region provided in a surface portion of the semiconductor layer. Sn is included in an interface portion between the semiconductor layer and the metal Ge compound region. A lattice plane of the semiconductor layer matches with a lattice plane of the metal Ge compound region.

Abstract: According to one embodiment, A semiconductor device includes: a first semiconductor layer; and a plurality of first transistors including a plurality of first gate structures provided on the first semiconductor layer, a first channel region provided in the first semiconductor layer and under the first gate structure, and a plurality of first diffusion regions provided in the first semiconductor layer in a manner to sandwich the first channel region.

Abstract: According to one embodiment, a CMOS image sensor includes a photoelectric conversion element and an amplifier transistor. The photoelectric conversion element converts incident light into an electric signal. The amplifier transistor has a heterojunction in which a Ge layer and an SiGeSn layer are joined together, as a channel region and amplifies the electric signal resulting from conversion by the photoelectric conversion element.