The emergence of silicon photonics over the past two decades has established silicon as a
preferred substrate platform for photonic integration. While most silicon-based photonic …

The family of 2D and layered materials has been expanding rapidly for more than a decade.
Within this large family of hundreds of materials, black phosphorus and its isoelectronic …

Silicon photonics is widely acknowledged as a game-changing technology, driven by the
needs of datacom and telecom. Silicon photonics builds on highly capital-intensive …

Silicon photonic integrated circuits for telecommunication and data centers have been well
studied in the past decade, and now most related efforts have been progressing toward …

Germanium (Ge) has played a key role in silicon photonics as an enabling material for
datacom applications. Indeed, the unique properties of Ge have been leveraged to develop …

Silicon has been the material of choice of the photonics industry over the last decade due to
its easy integration with silicon electronics, high index contrast, small footprint, and low cost …

The 2 μm wavelength band has become a promising candidate to be the next
communication window. We demonstrate high-speed modulators based on a 220 nm silicon …

Mid-infrared absorption spectroscopy plays an important role in molecule identification and
quantification for widespread applications. Integrated photonics provides opportunities to …

We report the demonstration of a normal-incidence pin germanium-tin (Ge_0. 951Sn_0.
049) photodetector on silicon-on-insulator substrate for 2 μm wavelength application. The …

We present a focusing subwavelength grating (SWG) for efficient coupling of mid-infrared
(mid-IR) light into suspended membrane Ge photonic integrated circuits (PICs) that enable …