摘要:
A semiconductor device according to an embodiment includes a semiconductor substrate, a gate insulating film formed on the semiconductor substrate, a gate electrode formed on the gate insulating film, first gate sidewalls formed on both sides of the gate electrode, and a source/drain semiconductor layer formed on the semiconductor substrate to sandwich the first gate sidewalls with the gate electrode. Further, second gate sidewalls are provided on the first gate sidewalls and the source/drain semiconductor layer at both sides of the gate electrode, wherein the boundary of each of the second gate sidewalls with each of the first gate sidewalls is terminated at the side surface of the gate electrode, and each of the second gate sidewalls has a smaller Young's modulus and a lower dielectric constant than each of the first gate sidewalls.
摘要:
In a semiconductor device manufacturing method, a first semiconductor region which includes a narrow portion and a wide portion is formed in an upper portion of a semiconductor substrate, a gate insulating film is formed on at least side surfaces of the narrow portion, a gate electrode is formed on the gate insulating film, a mask pattern that covers the wide portion is formed, ion implantation of an impurity is performed with the mask pattern as a mask to form an extension impurity region in the narrow portion, the mask pattern is removed, a heat treatment is performed to activate the impurity, a gate sidewall is formed on a side surface of the gate electrode, epitaxial growth of a semiconductor film is performed on the narrow portion and the wide portion after the formation of the gate sidewall, and source-drain regions is formed on both sides of the gate electrode.
摘要:
A semiconductor device manufacturing method of an embodiment includes the steps of: forming a first insulating layer on a semiconductor substrate; forming on the first insulating layer an amorphous or polycrystalline semiconductor layer having a narrow portion; forming on the semiconductor layer a second insulating layer having a thermal expansion coefficient larger than that of the semiconductor layer; performing thermal treatment; removing the second insulating layer; forming a gate insulating film on the side faces of the narrow portion; forming a gate electrode on the gate insulating film; and forming a source-drain region in the semiconductor layer.
摘要:
A semiconductor device according to embodiments includes a semiconductor substrate, a buried insulating layer which is formed on the semiconductor substrate, a semiconductor layer which is formed on the buried insulating layer and includes a narrow portion and two wide portions which are larger than the narrow portion in width and are respectively connected to one end and the other end of the narrow portion, a gate insulating film which is formed on a side surface of the narrow portion, and a gate electrode formed on the gate insulating film. The impurity concentration of the semiconductor substrate directly below the narrow portion is higher than the impurity concentration of the narrow portion, and the impurity concentration of the semiconductor substrate directly below the narrow portion is higher than the impurity concentration of the semiconductor substrate directly below the wide portion.
摘要:
A semiconductor device of an embodiment includes: an insulating film including: a first region extending in a first direction; second and third regions arranged at a distance from each other; and fourth and fifth regions each having a concave shape, the fourth and fifth regions each having a smaller film thickness than a film thickness of each of the first through third regions; a semiconductor layer formed in a direction from the fourth region toward the fifth region, the semiconductor layer having a smaller width than a width of each of source and drain regions, the semiconductor layer being connected to the source and drain regions; a gate electrode placed on the opposite side of a gate insulating film from the semiconductor layer on the first region; and a gate sidewall formed on a side face of the gate electrode.
摘要:
According to one embodiment, a semiconductor device includes a fin type stacked layer structure which has first to third semiconductor layers, and first to third layer select transistors to select one of the first to third semiconductor layers. The second layer select transistor is normally on in the second semiconductor layer, and is controlled to be on or off in the first and third semiconductor layers. A channel region of the second semiconductor layer which is covered with a gate electrode of the second layer select transistor has a metal silicide.
摘要:
A non-volatile semiconductor storage device includes: a semiconductor substrate; a source region and a drain region formed in the semiconductor substrate so as to be separated from each other; a first insulating film formed between the source region and the drain region, on the semiconductor substrate; a floating electrode formed on the first insulating film and including a semiconductor conductive material layer having extension strain; a second insulating film formed on the floating electrode; and a control electrode formed on the second insulating film. The extension strain of the floating electrode becomes gradually small as the location advances from the second insulating film toward the first insulating film, and the floating electrode has extension strain of 0.01% or more at an interface between the floating electrode and the second insulating film, and has extension strain less than 0.01% at an interface between the floating electrode and the first insulating film.
摘要:
A semiconductor device capable of realizing low-voltage drivability and large storage capacity (miniaturization) by achieving large threshold voltage shifts and long retention time while at the same time suppressing variations in characteristics among memory cells is disclosed. The device includes a semiconductor memory cell having a channel region formed in a semiconductor substrate, a tunnel insulator film on the channel region, a charge storage insulator film on the tunnel insulator film, a control dielectric film on the charge storage film, a control electrode on the control dielectric film, and source/drain regions at opposite ends of the channel region. The memory cell's channel region has a cross-section at right angles to a direction along the channel length, the width W and height H of which are each less than or equal to 10 nm.
摘要:
A FinFET and nanowire transistor with strain direction optimized in accordance with the sideface orientation and carrier polarity and an SMT-introduced manufacturing method for achieving the same are provided. A semiconductor device includes a pMISFET having a semiconductor substrate, a rectangular solid-shaped semiconductor layer formed at upper part of the substrate to have a top surface parallel to a principal plane of the substrate and a sideface with a (100) plane perpendicular to the substrate's principal plane, a channel region formed in the rectangular semiconductor layer, a gate insulating film formed at least on the sideface of the rectangular layer, a gate electrode on the gate insulator film, and source/drain regions formed in the rectangular semiconductor layer to interpose the channel region therebetween. The channel region is applied a compressive strain in the perpendicular direction to the substrate principal plane. A manufacturing method of the device is also disclosed.
摘要:
A FinFET and nanowire transistor with strain direction optimized in accordance with the sideface orientation and carrier polarity and an SMT-introduced manufacturing method for achieving the same are provided. A semiconductor device includes a pMISFET having a semiconductor substrate, a rectangular solid-shaped semiconductor layer formed at upper part of the substrate to have a top surface parallel to a principal plane of the substrate and a sideface with a (100) plane perpendicular to the substrate's principal plane, a channel region formed in the rectangular semiconductor layer, a gate insulating film formed at least on the sideface of the rectangular layer, a gate electrode on the gate insulator film, and source/drain regions formed in the rectangular semiconductor layer to interpose the channel region therebetween. The channel region is applied a compressive strain in the perpendicular direction to the substrate principal plane. A manufacturing method of the device is also disclosed.