Optical gas sensing for environmental monitoring has become an active research topic in
the last decade. Among the different optical sensing configurations, silicon photonic
integrated sensors stand as a compact, CMOS-compatible alternative. However, even
small on-chip reflections can create significant fringes when the optical path length is
varied, e.g., when the wavelength is swept for TDLAS-like measurements. These fringes
can be critical for NIR sensors, as absorption signals are much weaker in this region than
in the MIR. Here, we propose a signal-processing method based on minimum phase
techniques: by increasing the measurement bandwidth to around 2 nm we can
completely remove the reflection artifacts through processing.