Abstract: An integrated circuit (IC) includes at least one capacitor with metal electrodes. At least one of the electrodes (10 or 30) is formed from at least surface-silicided hemispherical grain silicon or silicon alloy. A fabrication process for obtaining such a capacitor with silicided metal electrodes is also provided.

Abstract: An integrated circuit (IC) includes at least one capacitor with metal electrodes. At least one of the electrodes (10 or 30) is formed from at least surface-silicided hemispherical grain silicon or silicon alloy. A fabrication process for obtaining such a capacitor with silicided metal electrodes is also provided.

Abstract: An integrated circuit (IC) includes at least one capacitor with metal electrodes. At least one of the electrodes (10 or 30) is formed from at least surface-silicided hemispherical grain silicon or silicon alloy. A fabrication process for obtaining such a capacitor with silicided metal electrodes is also provided.

Abstract: An integrated circuit (IC) includes at least one capacitor with metal electrodes. At least one of the electrodes (10 or 30) is formed from at least surface-silicided hemispherical grain silicon or silicon alloy. A fabrication process for obtaining such a capacitor with silicided metal electrodes is also provided.

Abstract: A semiconductor device comprises a gate electrode (1) and a gate insulating layer (2) both surrounded by a spacer (3) and produced on a surface (S) of a substrate (100) of a first semiconductor material. The device also comprises a source region (4) and a drain region (5) both situated below the surface of the substrate, respectively on two opposite sides of the gate electrode (1). The source region and the drain region each comprise a portion of a second semiconductor material (6, 7) disposed on the substrate (100) and extending between the substrate (100) and the spacer (3). The second material has a melting point lower than the melting point of the first material. The portions of second material (6, 7) constitute extensions of the source (4) and drain (5) regions. The semiconductor device can be an MOS transistor.

Abstract: A process for forming a silicide on top of at least one silicon portion on the surface of a semiconductor wafer, comprising the following steps: a) implanting, at a defined depth in the silicon portion, through a dielectric layer, of ions that have the property of limiting the silicidation of metals; b) performing heat treatment; c) depositing a metal layer, the metal being capable of forming a silicide by thermal reaction with the silicon; d) performing rapid thermal processing suitable for siliciding the metal deposited at step c); and e) removing the metal that has not reacted to the thermal processing of step d). Advantageously, the thickness of the silicide layer created at step d) is controlled by a suitable choice of the depth of the implantation carried out in step a).