In this paper, we demonstrate that lock-in thermography (LIT) appears as a key and complementary technique for Failure Analysis across different use cases. Even if the failure requires a complex emulation setup, thanks to a specific capability of our thermal system, this kind of failure can be addressed. In our FA case study, we will show that LIT is a most efficient solution to address a bridge defect located inside a complex logic area, and furthermore that LIT highlights the defect itself and not only the consequences of the defect.

This paper presents the use of pulsed laser stimulation with picosecond and femtosecond laser pulses. We first discuss the resolution improvement that can be expected when using ultrashort laser pulses. Two case studies are then presented to illustrate the possibilities of the pulsed laser photoelectric stimulation in picosecond single-photon and femtosecond two-photon modes.