摘要:
The present disclosure provides a MTJ stack for an MRAM device. The MTJ stack includes a pinned ferromagnetic layer over a pinning layer; a tunneling barrier layer over the pinned ferromagnetic layer; a free ferromagnetic layer over the tunneling barrier layer; a conductive oxide layer over the free ferromagnetic layer; and a oxygen-based cap layer over the conductive oxide layer.
摘要:
MTJ stack structures for an MRAM device include an MTJ stack having a pinned ferromagnetic layer over a pinning layer, a tunneling barrier layer over the pinned ferromagnetic layer, a free ferromagnetic layer over the tunneling barrier layer, a conductive oxide layer over the free ferromagnetic layer, and an oxygen-based cap layer over the conductive oxide layer.
摘要:
A semiconductor memory device includes a first ferromagnetic layer magnetically pinned and positioned within a first region of a substrate; a second ferromagnetic layer approximate the first ferromagnetic layer; and a barrier layer interposed between the first ferromagnetic layer and the first portion of the second ferromagnetic layer. The second ferromagnetic layer includes a first portion being magnetically free and positioned within the first region; a second portion magnetically pinned to a first direction and positioned within a second region of the substrate, the second region contacting the first region from a first side; and a third portion magnetically pinned to a second direction and positioned within a third region of the substrate, the third region contacting the first region from a second side.
摘要:
Apparatus and methods are disclosed herein for a reverse-connection STT MTJ element of a MRAM to overcome the source degeneration effect when switching the magnetization of the MTJ element from the parallel to the anti-parallel direction. A memory cell of a MRAM having a reverse-connection MTJ element includes a switching device having a source, a gate, and a drain, and a reverse-connection MTJ device having a free layer, a fixed layer, and an insulator layer interposed between the free layer and the fixed layer. The free layer of the reverse-connection MTJ device is connected to the drain of the switching device and the fixed layer is connected to a bit line (BL). The reverse-connection MTJ device applies the lower IMTJ capability of the memory cell caused by the source degeneration effect to the less stringent IMTJ(AP->P) while preserving the higher IMTJ capability for the more demanding IMTJ(P->AP).
摘要:
Apparatus and methods are disclosed herein for a reverse-connection STT MTJ element of a MRAM to overcome the source degeneration effect when switching the magnetization of the MTJ element from the parallel to the anti-parallel direction. A memory cell of a MRAM having a reverse-connection MTJ element includes a switching device having a source, a gate, and a drain, and a reverse-connection MTJ device having a free layer, a fixed layer, and an insulator layer interposed between the free layer and the fixed layer. The free layer of the reverse-connection MTJ device is connected to the drain of the switching device and the fixed layer is connected to a bit line (BL). The reverse-connection MTJ device applies the lower IMTJ capability of the memory cell caused by the source degeneration effect to the less stringent IMTJ(AP->P) while preserving the higher IMTJ capability for the more demanding IMTJ(P->AP).
摘要:
A semiconductor memory device includes a first ferromagnetic layer magnetically pinned and positioned within a first region of a substrate; a second ferromagnetic layer approximate the first ferromagnetic layer; and a barrier layer interposed between the first ferromagnetic layer and the first portion of the second ferromagnetic layer. The second ferromagnetic layer includes a first portion being magnetically free and positioned within the first region; a second portion magnetically pinned to a first direction and positioned within a second region of the substrate, the second region contacting the first region from a first side; and a third portion magnetically pinned to a second direction and positioned within a third region of the substrate, the third region contacting the first region from a second side.
摘要:
A magnetoresistive random access memory (MRAM) cell includes a magnetic tunnel junction (MTJ), a top electrode disposed over the MTJ, a bottom electrode disposed below the MTJ, and an induction line disposed to one side of the MTJ. The induction line is configured to induce a perpendicular magnetic field at the MTJ.
摘要:
A method for displaying a resized window includes receiving a resizing message, generating a window having a second size according to the resizing message and a window having a first size and located at a position corresponding to a first reference point, and displaying the window having the second size at a position different from the position corresponding to the first reference point. After generating the windows, the window having the second size is not displayed at the position corresponding to the first reference point.
摘要:
A graphic user interface and an establishing method thereof are provided. Firstly, a first window is established. The first window has a window pattern and the first window is established by merging the window pattern with a desktop pattern of a desktop. Next, a second window is established. The second window is shown on the first window, and has a linking connection with the first window. The linking connection includes a relative position connection and a relative size connection. Then, a plurality of third windows are established. The third windows are shown on the second window, and have a plurality of implied connections with the second window respectively. The implied connections are established by an operation system. When the first window performs an action, the second window performs the action according to the linking connection, and the third windows are shown on the second window according to the implied connections.
摘要:
A method for displaying a resized window includes receiving a resizing message, generating a window having a second size according to the resizing message and a window having a first size and located at a position corresponding to a first reference point, and displaying the window having the second size at a position different from the position corresponding to the first reference point. After generating the windows, the window having the second size is not displayed at the position corresponding to the first reference point.