Abstract This paper demonstrates capacitance-voltage (CV) measurements using Nanoprobing to characterize different fails and better understand the defect mode. Three case studies are conducted using the CV technique. DC Nanoprobing measurements are first used to identify the failure mode. Subsequently, CV measurements are employed to further narrow down the root cause, to understand the process mechanism leading to the failure. A pathway to use the CV technique to isolate defects with-in a device under test is also demonstrated. It has been shown that the gate to lightly doped drain CV measurements will be a very useful characterization tool to understand various fail modes. This finding, along with DC measurement, serves to narrow the issue primarily to gate stack work function related matters.

Abstract This paper demonstrates a two-pin Electron Beam Induced Current (EBIC) isolation technique to isolate the defective Fin with gate oxide damage in advanced Fin Field Effect Transistor (FinFET) devices. The basic principle of this twopin configuration is similar to two-point Electron Beam Absorption Current (EBAC) technique: a second pin as ground on the gate is added to partially shunt the EBIC current and thus creates EBIC contrast from the defective Fin. In this way, the challenge of highly resistive short path inside the Fin in a narrow gate can be overcome. The paper will provide failure analysis details using this technique for defective Fin isolation.