Abstract: A method to fabricate a high density, minimal pitch, thermally matched contactor assembly to maintain electrical contact with contact regions on fully processed semiconductors, preferably while still in wafer form, and throughout a range of temperatures. A guide plate and a contactor assembly for such use, comprising a substrate formed of a material having a coefficient of thermal expansion approximately equal to that of the device; and at least one hole in the guide plate for receiving an electrical contact (probe element) for contacting at least one respective region on said surface, said at least one hole being sized and shaped so as to accept said electrical contact, while allowing said electrical contact (probe element) to move with respect to said hole in said guide plate. The material can be one of silicon, borosilicate glass and cordierite.

Abstract: A method to form a closed air gap interconnect structure is described. A starting structure made of regions of a permanent support dielectric under the interconnect lines and surrounding interconnect vias with one or more sacrificial dielectrics present in the remaining portions of the interconnect structure, is capped with a dielectric barrier which is perforated using a stencil with a regular array of holes. The sacrificial dielectrics are then extracted through the holes in the dielectric barrier layer such that the interconnect lines are substantially surrounded by air except for the regions of the support dielectric under the lines. The holes in the cap layer are closed off by depositing a second barrier dielectric so that a closed air gap is formed. Several embodiments of this method and the resulting structures are described.

Abstract: A method to form a closed air gap interconnect structure is described. A starting structure made of regions of a permanent support dielectric under the interconnect lines and surrounding interconnect vias with one or more sacrificial dielectrics present in the remaining portions of the interconnect structure, is capped with a dielectric barrier which is perforated using a stencil with a regular array of holes. The sacrificial dielectrics are then extracted through the holes in the dielectric barrier layer such that the interconnect lines are substantially surrounded by air except for the regions of the support dielectric under the lines. The holes in the cap layer are closed off by depositing a second barrier dielectric so that a closed air gap is formed. Several embodiments of this method and the resulting structures are described.

Abstract: A method to fabricate a high density, minimal pitch, thermally matched contactor assembly to maintain electrical contact with contact regions on fully processed semiconductors, preferably while still in wafer form, and throughout a range of temperatures. A guide plate and a contactor assembly for such use, comprising a substrate formed of a material having a coefficient of thermal expansion approximately equal to that of the device; and at least one hole in the guide plate for receiving an electrical contact (probe element) for contacting at least one respective region on said surface, said at least one hole being sized and shaped so as to accept said electrical contact, while allowing said electrical contact (probe element) to move with respect to said hole in said guide plate. The material can be one of silicon, borosilicate glass and cordierite.

Abstract: A method to form a closed air gap interconnect structure is described. A starting structure made of regions of a permanent support dielectric under the interconnect lines and surrounding interconnect vias with one or more sacrificial dielectrics present in the remaining portions of the interconnect structure, is capped with a dielectric barrier which is perforated using a stencil with a regular array of holes. The sacrificial dielectrics are then extracted through the holes in the dielectric barrier layer such that the interconnect lines are substantially surrounded by air except for the regions of the support dielectric under the lines. The holes in the cap layer are closed off by depositing a second barrier dielectric so that a closed air gap is formed. Several embodiments of this method and the resulting structures are described.

Abstract: A microjoint interconnect structure comprising a dense array of metallic studs of precisely controllable height tipped with a joining metallurgy. The array is produced on a device chip that is to be attached to a carrier, or to a carrier along with other devices, some of which may be selected to have similar interconnect structures so as to form all together an assembled carrier that functions as a complete computing, communications or networking system.

Abstract: A method is described for forming a metal pattern in a low-dielectric constant substrate. A hardmask is prepared which includes a low-k lower hardmask layer and a top hardmask layer. The top hardmask layer is a sacrificial layer with a thickness of about 200 Å, preferably formed of a refractory nitride, and which serves as a stopping layer in a subsequent CMP metal removal process. The patterning is performed using resist layers. Oxidation damage to the lower hardmask layer is avoided by forming a protective layer in the hardmask, or by using a non-oxidizing resist strip process.