A storage device includes a first conductor that extends in a first direction, a first stacked body that extends in the first direction, is electrically connected to the first conductor, and includes a first ferromagnetic body that extends in the first direction, a second ferromagnetic body, a first insulator between the first stacked body and the second ferromagnetic body, a first switching element having first and second ends, wherein the first end is electrically connected to the second ferromagnetic body, the first switching element regulating current flow between the first and second ends in response to a voltage applied between the first and second ends, a second conductor that extends in a second direction crossing the first direction and is electrically connected to the second end of the first switching element, a third ferromagnetic body, and a second insulator between the third ferromagnetic body and another stacked body.

A method for fabricating semiconductor device includes the steps of first forming a magnetic tunneling junction (MTJ) stack on a substrate, in which the MTJ stack includes a pinned layer on the substrate, a barrier layer on the pinned layer, and a free layer on the barrier layer. Next, part of the MTJ stack is removed, a first cap layer is formed on a sidewall of the MTJ stack, and the first cap layer and the MTJ stack are removed to form a first MTJ and a second MTJ.

A method for fabricating semiconductor device includes the steps of first forming a magnetic tunneling junction (MTJ) stack on a substrate, in which the MTJ stack includes a pinned layer on the substrate, a barrier layer on the pinned layer, and a free layer on the barrier layer. Next, part of the MTJ stack is removed, a first cap layer is formed on a sidewall of the MTJ stack, and the first cap layer and the MTJ stack are removed to form a first MTJ and a second MTJ.

An erasable magnetoresistive random-access memory (MRAM) structure and a method of making the same includes an MRAM cell disposed between bit line and word line circuit elements, and a vertical-cavity surface-emitting laser (VCSEL) element disposed above the MRAM cell. A laser output of the VCSEL is directed toward the MRAM cell.

An erasable magnetoresistive random-access memory (MRAM) structure and a method of making the same includes an MRAM cell disposed between bit line and word line circuit elements, and a vertical-cavity surface-emitting laser (VCSEL) element disposed above the MRAM cell. A laser output of the VCSEL is directed toward the MRAM cell.

A magnetoresistive random access memory (MRAM), including multiple cell array regions, multiple MRAM cells disposed in the cell array region, a silicon nitride liner conformally covering on the MRAM cells, an atomic layer deposition dielectric layer covering on the silicon nitride liner in the cell array region, wherein the surface of atomic layer deposition dielectric layer is a curved surface concave downward to the silicon nitride liner at the boundary of MRAM cells, and an ultra low-k dielectric layer covering on the atomic layer deposition dielectric layer.

A magnetoresistive random access memory (MRAM), including multiple cell array regions, multiple MRAM cells disposed in the cell array region, a silicon nitride liner conformally covering on the MRAM cells, an atomic layer deposition dielectric layer covering on the silicon nitride liner in the cell array region, wherein the surface of atomic layer deposition dielectric layer is a curved surface concave downward to the silicon nitride liner at the boundary of MRAM cells, and an ultra low-k dielectric layer covering on the atomic layer deposition dielectric layer.

A method for fabricating semiconductor device includes the steps of: forming a magnetic tunneling junction (MTJ) stack on a substrate; forming a top electrode on the MTJ stack; performing a first patterning process to remove the MTJ stack along a first direction; and performing a second patterning process to remove the MTJ stack along a second direction to form MTJs on the substrate.

A method for fabricating semiconductor device includes the steps of: forming a magnetic tunneling junction (MTJ) stack on a substrate; forming a top electrode on the MTJ stack; performing a first patterning process to remove the MTJ stack along a first direction; and performing a second patterning process to remove the MTJ stack along a second direction to form MTJs on the substrate.

An erasable magnetoresistive random-access memory (MRAM) structure and a method of making the same includes an MRAM cell disposed between bit line and word line circuit elements, and a vertical-cavity surface-emitting laser (VCSEL) element disposed above the MRAM cell. A laser output of the VCSEL is directed toward the MRAM cell.