A first semiconductor layer 1 is formed on a substrate, a first impurity layer 3 and a second impurity layer 4 extending in a vertical direction are sequentially disposed on part of the first semiconductor layer 1, their sidewalls and the semiconductor layer 1 are covered by a second gate insulating layer 2, a gate conductor layer 22 and a second insulating layer are disposed in a groove formed there, and a second semiconductor layer 7, n.sup.+ layers 6a and 6c positioned at respective ends of the layer 7 and connected to a source line SL and a bit line BL, respectively, a second gate insulating layer 8 formed to cover the second semiconductor layer 7, and a second gate conductor layer 9 connected to a word line WL are disposed on the second impurity layer. Voltage applied to the source line SL, a plate line PL connected to the first gate conductor layer 22, the word line WL, and the bit line BL is controlled to perform data holding operation of holding, near the gate insulating layer, holes generated by an impact ionization phenomenon in a channel region of the second semiconductor layer or by gate-induced drain leakage current, and data erase operation of removing the holes in the channel region 12.

A first semiconductor layer 1 is formed on a substrate, a first impurity layer 3 and a second impurity layer 4 extending in a vertical direction are sequentially disposed on part of the first semiconductor layer 1, their sidewalls and the semiconductor layer 1 are covered by a second gate insulating layer 2, a gate conductor layer 22 and a second insulating layer are disposed in a groove formed there, and a second semiconductor layer 7, n.sup.+ layers 6a and 6c positioned at respective ends of the layer 7 and connected to a source line SL and a bit line BL, respectively, a second gate insulating layer 8 formed to cover the second semiconductor layer 7, and a second gate conductor layer 9 connected to a word line WL are disposed on the second impurity layer. Voltage applied to the source line SL, a plate line PL connected to the first gate conductor layer 22, the word line WL, and the bit line BL is controlled to perform data holding operation of holding, near the gate insulating layer, holes generated by an impact ionization phenomenon in a channel region of the second semiconductor layer or by gate-induced drain leakage current, and data erase operation of removing the holes in the channel region 12.

A memory device includes at least one semiconductor layer having a double PN junction, and an anode and a cathode which simultaneously contact the semiconductor layer, wherein a junction between the semiconductor layer and the anode is a Schottky junction, and a junction between the semiconductor layer and the cathode is an Ohmic junction. In addition, a capacitor-less memory device includes at least one semiconductor layer including a double PN junction, a control gate which contacts the semiconductor layer, and an anode and a cathode which simultaneously contact the semiconductor layer, wherein a junction between the semiconductor layer and the anode is a Schottky junction, and a junction between the semiconductor layer and the cathode is an Ohmic junction. Methods of operating the memory device and the capacitor-less memory device are also disclosed.

Techniques are provided for managing voltages on memory cells in a cross-point array during a read operation. The techniques apply to vertical layer thyristor memory cells and non-thyristor memory cells. Voltages on selected bitlines (e.g., corresponding to memory cells from which data is to be read), are set to a read voltage level. Voltages on unselected bitlines (e.g., corresponding to memory cells from which data is not to be read and which are not to be disturbed) are set to a de-bias voltage level that is different from the read voltage level.

Techniques are provided for managing voltages on memory cells in a cross-point array during a read operation. The techniques apply to vertical layer thyristor memory cells and non-thyristor memory cells. Voltages on selected bitlines (e.g., corresponding to memory cells from which data is to be read), are set to a read voltage level. Voltages on unselected bitlines (e.g., corresponding to memory cells from which data is not to be read and which are not to be disturbed) are set to a de-bias voltage level that is different from the read voltage level.

A vertical thyristor memory array including: a vertical thyristor memory cell, the vertical thyristor memory cell including: a p+ anode; an n-base located below the p+ anode; a p-base located below the n-base; a n+ cathode located below the p-base; an isolation trench located around the vertical thyristor memory cell; an assist gate located in the isolation trench adjacent the n-base wherein an entire vertical height of the assist gate is positioned within an entire vertical height of the n-base.

A memory device, an operating method of the memory device, and a fabricating method of the memory device are provided. A memory device includes: a semiconductor column extending vertically on a substrate and including a source region of a first conductivity type, an intrinsic region, and a drain region of a second conductivity type; a first gate electrode disposed adjacent to the drain region to cover the intrinsic region; a second gate electrode spaced apart from the first gate electrode and disposed adjacent to the source region to cover the intrinsic region; a first gate electrode disposed between the first gate electrode and the intrinsic region; and a second gate insulating layer disposed between the second gate electrode and the intrinsic region.

A memory device, an operating method of the memory device, and a fabricating method of the memory device are provided. A memory device includes: a semiconductor column extending vertically on a substrate and including a source region of a first conductivity type, an intrinsic region, and a drain region of a second conductivity type; a first gate electrode disposed adjacent to the drain region to cover the intrinsic region; a second gate electrode spaced apart from the first gate electrode and disposed adjacent to the source region to cover the intrinsic region; a first gate electrode disposed between the first gate electrode and the intrinsic region; and a second gate insulating layer disposed between the second gate electrode and the intrinsic region.

An IC may include an array of memory cells formed in a semiconductor, including memory cells arranged in rows and columns, each memory cell may include a floating body region defining at least a portion of a surface of the memory cell, the floating body region having a first conductivity type; a buried region located within the memory cell and located adjacent to the floating body region, wherein the buried region has a second conductivity type, wherein the floating body region is bounded on a first side by a first insulating region having a first thickness and on a second side by a second insulating region having a second thickness, and a gate region above the floating body region and the second insulating region and is insulated from the floating body region by an insulating layer; and control circuitry configured to provide electrical signals to said buried region.

An IC may include an array of memory cells formed in a semiconductor, including memory cells arranged in rows and columns, each memory cell may include a floating body region defining at least a portion of a surface of the memory cell, the floating body region having a first conductivity type; a buried region located within the memory cell and located adjacent to the floating body region, wherein the buried region has a second conductivity type, wherein the floating body region is bounded on a first side by a first insulating region having a first thickness and on a second side by a second insulating region having a second thickness, and a gate region above the floating body region and the second insulating region and is insulated from the floating body region by an insulating layer; and control circuitry configured to provide electrical signals to said buried region.