Abstract: Longitudinal trenches extend between and on either side of first and second side-by-side strips. Transverse trenches extend from one edge to another edge of the first strip to define tensilely strained semiconductor slabs in the first strip, with the second strip including portions that are compressively strained in the longitudinal direction and/or tensilely strained in the transverse direction. In the first strip, N-channel MOS transistors are located inside and on top of the semiconductor slabs. In the second strip, P-channel MOS transistors are located inside and on top of the portions.

Abstract: A strip or portions of a strip of silicon-germanium is made by first producing a strip of silicon suspended above a substrate. At least a portion of the strip of silicon is with a layer of silicon-germanium. Germanium enrichment of the portion of the strip of silicon is accomplished through a thermal oxidation. The resulting silicon oxide formed during the thermal oxidation is then removed.

Abstract: A three-dimensional photonic integrated structure includes a first semiconductor substrate and a second semiconductor substrate. The first substrate incorporates a first waveguide and the second semiconductor substrate incorporates a second waveguide. An intermediate region located between the two substrates is formed by a one dielectric layer. The second substrate further includes an optical coupler configured for receiving a light signal. The first substrate and dielectric layer form a reflective element located below and opposite the grating coupler in order to reflect at least one part of the light signal.

Abstract: An electro-optic device may include a photonic chip having an optical grating coupler at a surface. The optical grating coupler may include a first semiconductor layer having a first base and first fingers extending outwardly from the first base. The optical grating coupler may include a second semiconductor layer having a second base and second fingers extending outwardly from the second base and being interdigitated with the first fingers to define semiconductor junction areas, with the first and second fingers having a non-uniform width. The electro-optic device may include a circuit coupled to the optical grating coupler and configured to bias the semiconductor junction areas and change one or more optical characteristics of the optical grating coupler.

Abstract: A reading circuit for a charge-retention circuit stage is provided with a storage capacitor coupled between a first biasing terminal and a floating node, and a discharge element coupled between the floating node and a reference terminal. The reading circuit further has an operational amplifier having a first input terminal that is coupled to the floating node and receives a reading voltage, a second input terminal receives a reference voltage, and an output terminal on which it supplies an output voltage, the value of which is a function of the comparison between the reading voltage and the reference voltage and indicative of a residual charge in the storage capacitor. A shifting stage shifts the value of the reading voltage of the floating node, before the comparison is made between the reading voltage and the reference voltage for supplying the output voltage.

Abstract: A semiconductor substrate includes a photodiode region, a charge storage region electrically coupled to the photodiode region and a capacitive deep trench isolation (CDTI) structure including a conductive region positioned between the photodiode region and the charge storage region. A contact etch stop layer overlies the semiconductor substrate and a premetallization dielectric layer overlies the contact etch stop layer. A first trench, filled with a metal material, extends through the premetallization dielectric layer and bottoms out at or in the contact etch stop layer. A second trench, also filled with the metal material, extends through the premetallization dielectric layer and the contact etch stop layer and bottoms out at or in the conductive region of the CDTI structure. The metal filled first trench forms an optical shield between the photodiode region and the charge storage region. The metal filled second trench forms a contact for biasing the CDTI structure.

Abstract: A chain of flip-flops is tested by passing a reference signal through the chain. The reference signal is generated from a test pattern that is cyclically fed back at the cadence of a clock signal. The reference signal propagates through the chain of flip-flops at the cadence of the clock signal to output a test signal. A comparison is carried out at the cadence of the clock signal of the test signal and the reference signal, where the reference signal is delayed by a delay time taking into account the number of flip-flops in the chain and the length of the test pattern. An output signal is produced, at the cadence of the clock signal, as a result of the comparison.

Abstract: An image sensor includes a control circuit and pixels. Each pixel includes: a photosensitive area, a substantially rectangular storage area adjacent to the photosensitive area, and a read area. First and second insulated vertical electrodes electrically connected to each other are positioned opposite each other and delimit the storage area. The first electrode extends between the storage area and the photosensitive area. The second electrode includes a bent extension opposite a first end of the first electrode, with the storage area emerging onto the photosensitive area on the side of the first end. The control circuit operates to apply a first voltage to the first and second electrodes to perform a charge transfer, and a second voltage to block charge transfer.

Abstract: A phase-change memory includes a strip of phase-change material that is coated with a conductive strip and surrounded by an insulator. The strip of phase-change material has a lower face in contact with tips of a resistive element. A connection network composed of several levels of metallization coupled with one another by conducting vias is provided above the conductive strip. At least one element of a lower level of the metallization is in direct contact with the upper surface of the conductive strip.

Abstract: A phase change memory includes an L-shaped resistive element having a first part that extends between a layer of phase change material and an upper end of a conductive via and a second part that rests at least partially on the upper end of the conductive via and may further extend beyond a peripheral edge of the conductive via. The upper part of the conductive via is surrounded by an insulating material that is not likely to adversely react with the metal material of the resistive element.

Abstract: A time-of-flight detection pixel includes a photosensitive area and at least two assemblies. Each assembly includes: a charge storage area; a transfer transistor configured to control charge transfer from the photosensitive area to the charge storage area; and readout circuit configured to non-destructively measure a quantity of charges stored in the charge storage area.

Abstract: A thermo-electric generator includes a semiconductor membrane with a phononic structure containing at least one P-N junction. The membrane is suspended between a first support designed to be coupled to a cold thermal source and a second support designed to be coupled to a hot thermal source. The structure for suspending the membrane has an architecture allowing the heat flux to be redistributed within the plane of the membrane.

Abstract: A photonic integrated circuit includes an optical coupling device situated between two successive interconnection metal levels. The optical coupling device includes a first optical portion that receives an optical signal having a transverse electric component in a fundamental mode and a transverse magnetic component. A second optical portion converts the transverse magnetic component of the optical signal into a converted transverse electric component in a higher order mode. A third optical portion separates the transverse electric component from the converted transverse electric component and switches the higher order mode to the fundamental mode. A fourth optical portion transmits the transverse electric component to one waveguide and transmits the converted transverse electric component to another waveguide.

Abstract: A strip made of a semiconductor material is formed over a substrate. Longitudinal portions of the strip having a same length are covered with sacrificial gates made of an insulating material and spaced apart from each other. Non-covered portions of the strip are doped to form source/drain regions. An insulating layer followed by a layer of a temporary material is then deposited. Certain ones of the sacrificial gates are left in place. Certain other ones of the sacrificial gates are replaced by a metal gate structure. The temporary material is then replaced with a conductive material to form contacts to the source/drain regions.

Abstract: Active areas of memory cells and active areas of transistors are delimited in an upper portion of a wafer. Floating gates are formed on active areas of the memory cells. A silicon oxide-nitride-oxide tri-layer is then deposited over the wafer and a protection layer is deposited over the silicon oxide-nitride-oxide tri-layer. Portions of the protection layer and tri-layer located over the active areas of transistors are removed. Dielectric layers are formed over the wafer and selectively removed from covering the non-removed portions of the protection layer and tri-layer. A memory cell gate is then formed over the non-removed portions of the protection layer and tri-layer and a transistor gate is then formed over the non-removed portions of the dielectric layers.

Abstract: An image sensor device may include an array of image sensing pixels arranged in rows and columns. Each image sensing pixel may include an image sensing photodiode, a first source follower transistor coupled to the image sensing photodiode, and a switch coupled to the image sensing photodiode. Each image sensor device may include a second source follower transistor coupled to the switch, and a row selection transistor coupled to the first and second source follower transistors.

Abstract: A flip-flop includes a pulse-generator and a pulse-controlled latch. The pulse generator includes a first inverter to invert a clock signal, a second inverter to invert the inverted clock signal to generate a delayed clock signal, and a NOR gate having a first input coupled to an output of the first inverter, a second input coupled to the output of the second inverter, and an output, which, in operation, provides a pulse signal in response to a rising edge of a received clock signal. The pulse-controlled latch circuit has a data input and is controlled by the pulse signal and the delayed clock signal. The flip-flop may include a multiplexer to select an input signal.

Abstract: A vertical transistor includes two portions of a gate conductor that extend within a layer of insulator. An opening extending through the later of insulator includes source, channel and drain regions form by epitaxy operations. A thickness of the portions of the gate conductor decreases in the vicinity of the channel region.

Abstract: The invention relates to a III-V heterostructure laser device (1) arranged in and/or on silicon, comprising: a III-V heterostructure gain medium (3); and an optical rib waveguide (11), arranged facing the gain medium (3) and comprising a slab waveguide (15) equipped with a longitudinal rib (17), the optical rib waveguide (11) being arranged in the silicon. The optical rib waveguide (11) is oriented so that at least one Bragg grating (19, 19a, 19b) is arranged on that side (21) of the slab waveguide (15) which is proximal relative to the gain medium (3) and in that the rib (17) is placed on that side (23) of the slab waveguide (15) that is distal relative to the gain medium (3).

Abstract: Each pixel of a global shutter back-side illuminated image sensor includes a photosensitive area. On a front surface, a first transistor includes a vertical ring-shaped electrode penetrating into the photosensitive area and laterally delimiting a memory area. The memory area penetrates into the photosensitive area less deeply than the insulated vertical ring-shaped electrode. A read area is formed in an intermediate area which is formed in the memory area. The memory area, the intermediate area and read area define a second transistor having an insulated horizontal electrode forming a gate of the second transistor. The memory area may be formed by a first and second memory areas and an output signal is generated indicative of a difference between charge stored in the first memory area and charge stored in the second memory area after a charge transfer to the first memory area.