Patent ID: 11967665
Assignee: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
Field: Measurement (Instruments)
Classification: CPC G  H | IPC G  H

Claim 0:
1. A method for manufacturing a detection structure for detecting electromagnetic radiations, the detection structure comprising a MOS transistor as a transducer, the method comprising:
providing a semiconductor layer having a first concentration of majority carriers, said semiconductor layer being either of an intrinsic type or of a first conductivity type,
depositing at least one first dielectric material onto the surface of the semiconductor layer to form at least one first insulating layer,
depositing a first conductive material in contact with the at least one first insulating layer to form a first conductive layer,
depositing a masking layer in contact with the first conductive layer,
locally etching the masking layer and the conductive layer in order to form a masking layer/first conductive layer assembly, the first conductive layer, after being locally etched, at least partly forming a gate electrode of the MOS transistor by covering a first part of the first semiconductor layer,
first implanting of doping elements into the semiconductor layer, the first part of the semiconductor layer being protected by the masking layer/first conductive layer assembly, and said implantation being carried out with a first dose configured to provide a second concentration of majority carriers higher than the first concentration, said doping elements providing majority carriers of a given conductivity type,
forming a first and a second lateral extension element made of at least one dielectric material in contact with the first insulating layer on either side of the masking layer/first conductive layer assembly and, said first and second lateral extension elements extending from the masking layer/first conductive layer assembly opposite to each other,
second implanting of doping elements into the semiconductor layer, a second part of the semiconductor layer, comprising the first part of the semiconductor layer, being protected by the masking layer/first conductive layer assembly and the first and second lateral extension elements extending therefrom, said second implantation being carried out with a second dose higher than the first dose and configured to provide a third concentration of majority carriers higher than the second concentration, said doping elements providing majority carriers of the given conductivity type,
thermally annealing the semiconductor layer, the thermal annealing diffusing and activating the doping elements implanted during the first and second implantation, so as to form a first and second zone of the transistor with, for each of the first and second zones, a first region having a concentration of majority carriers higher than the second concentration and a second region having a concentration of majority carriers equal to or lower than the second concentration, said first region being partly covered with the first and second lateral extension elements, respectively, said first and second zones being separated from each other by a third zone of the transistor covered with the first insulating layer,
locally etching the parts of the semiconductor layer not protected by the masking layer/first conductive layer assembly and the first and second lateral extension elements which extend therefrom, said locally etching the parts resulting in keeping only the parts of the first regions of each of the first and second zones protected by the first and second lateral extensions and, if applicable, by the masking layer/first conductive layer assembly, thus one end of each first and second lateral extension element is aligned with a respective flank of the semiconductor layer along a direction perpendicular to a plane of the semiconductor layer,
depositing at least one second conductive material to form first and second metal contacts, each of the first and second metal contacts being in contact with the semiconductor layer only on the etch flank corresponding to the first and second lateral extension elements, respectively, at least one of the first and second metal contacts forming an absorbing element configured to absorb the electromagnetic radiation, the MOS transistor being thus formed.