Abstract: An infrared imaging micro-bolometer integrates a membrane assembled in suspension on a substrate by support arms. The membrane includes an absorbing material configured to capture infrared radiations and a thermometric material connected to the absorbing material configured to perform a transduction of the infrared radiations captured by the absorbing material The thermometric material is arranged on a surface area smaller than 0.4 times a surface area of the membrane. The membrane also includes at least one central dielectric layer arranged between the absorbing material and the thermometric material. Recesses are formed in the absorbing material and in the at least one dielectric layer in portions of the membrane devoid of the thermometric material.

Abstract: A method of manufacturing an infrared detector includes the steps of: hybrid bonding of a detection chip to a second chip; said hybrid bonding step being carried out by adhesion of contacts and of insulator layers of the two chips; removal of a substrate of said detection chip to reach a deep oxide layer; forming of conductive pads through said deep oxide layer to reach transistors present in a semiconductor layer; and forming of microbolometers suspended over said deep oxide layer and electrically connected to the conductive pads.

Abstract: An infrared imaging micro-bolometer integrates a membrane assembled in suspension on a substrate by support arms. The membrane includes an absorbing material configured to capture infrared radiations and a thermometric material connected to the absorbing material configured to perform a transduction of the infrared radiations captured by the absorbing material The thermometric material is arranged on a surface area smaller than 0.4 times a surface area of the membrane. The membrane also includes at least one central dielectric layer arranged between the absorbing material and the thermometric material. Recesses are formed in the absorbing material and in the at least one dielectric layer in portions of the membrane devoid of the thermometric material.

Abstract: An infrared radiation detector includes an array of elementary imaging bolometric detectors, each of the elementary bolometric detectors being formed of a bolometric membrane including a film made of vanadium oxide VOx, having a resistivity in the range from 6 ohm·cm to 50 ohm·cm, said membrane being suspended above a substrate integrating a signal for reading out the signal generated by said elementary detectors and for sequentially addressing the elementary detectors.

Abstract: A method of manufacturing an infrared detector includes the steps of: hybrid bonding of a detection chip to a second chip; said hybrid bonding step being carried out by adhesion of contacts and of insulator layers of the two chips; removal of a substrate of said detection chip to reach a deep oxide layer; forming of conductive pads through said deep oxide layer to reach transistors present in a semiconductor layer; and forming of microbolometers suspended over said deep oxide layer and electrically connected to the conductive pads.

Abstract: A method for producing a bolometric detector comprising producing a stack, on an interconnect level of a read-out circuit, comprising a sacrificial layer positioned between a carrier layer and an etch stop layer, the sacrificial layer comprising a mineral material; producing a conducting via passing through the stack such that it is in contact with a conducting portion of said interconnect level; depositing a conducting layer onto the carrier layer and the via; etching the conducting layer and the carrier layer, forming a bolometer membrane electrically connected to the via by a remaining portion of the conducting layer that covers an upper part of the via; and elimination of the sacrificial layer by selective chemical etching, and such that the membrane is suspended by the via.

Abstract: An infrared radiation detector includes an array of elementary imaging bolometric detectors, each of the elementary bolometric detectors being formed of a bolometric membrane including a film made of vanadium oxide VOx, having a resistivity in the range from 6 ohm·cm to 50 ohm·cm, said membrane being suspended above a substrate integrating a signal for reading out the signal generated by said elementary detectors and for sequentially addressing the elementary detectors.

Abstract: A method for producing a bolometric detector comprising: producing a stack, on an interconnect level of a read-out circuit, comprising a sacrificial layer positioned between a carrier layer and an etch stop layer, the sacrificial layer comprising a mineral material; producing a conducting via passing through the stack such that it is in contact with a conducting portion of said interconnect level; depositing a conducting layer onto the carrier layer and the via; etching the conducting layer and the carrier layer, forming a bolometer membrane electrically connected to the via by a remaining portion of the conducting layer that covers an upper part of the via; elimination of the sacrificial layer by selective chemical etching, and such that the membrane is suspended by the via.

Abstract: A device for detecting electromagnetic radiation, including a readout circuit, which is located in a substrate, and an electrical connection pad, which is placed on the substrate, including a metal section that is raised above the substrate and electrically connected to the readout circuit. The detection device furthermore includes a protection wall that extends under the raised metal section so as to define therewith at least one portion of a cavity, and what is called a reinforcing layer section that is located in the cavity and on which the raised metal section rests.

Abstract: A bolometric detection device includes a substrate having a read-out circuit. The device also includes an array of elementary detectors each including a membrane suspended above the substrate and connected to the read-out circuit by at least two electric conductors. The membrane has two electrically-conductive electrodes respectively connected to the two electric conductors, and a volume of transducer material electrically connecting the two electrodes. The read-out circuit is configured to apply an electrical stimulus between the two electrodes of the membrane and to form an electric signal as a response to said application.

Abstract: A device for detecting electromagnetic radiation, including a readout circuit, which is located in a substrate, and an electrical connection pad, which is placed on the substrate, including a metal section that is raised above the substrate and electrically connected to the readout circuit. The detection device furthermore includes a protection wall that extends under the raised metal section so as to define therewith at least one portion of a cavity, and what is called a reinforcing layer section that is located in the cavity and on which the raised metal section rests.

Abstract: A bolometric detection device includes a substrate having a read-out circuit. The device also includes an array of elementary detectors each including a membrane suspended above the substrate and connected to the read-out circuit by at least two electric conductors. The membrane has two electrically-conductive electrodes respectively connected to the two electric conductors, and a volume of transducer material electrically connecting the two electrodes. The read-out circuit is configured to apply an electrical stimulus between the two electrodes of the membrane and to form an electric signal as a response to said application.