Litcius/Paper detail

Er3+-Yb3+-Tm3+ tri-doped La2O3-Al2O3 glasses for low-power-consumption ultrawideband on-chip optical waveguide amplifiers

Zhengkai Li, Mingjie Zhang, Yuanzhi Chen, Junchang Lu, Zhanbo Wen, Banghu Wei, Mengyi Wang, Jiayue Xu, Qingli Zhang

2024Advanced Photonics Nexus12 citationsDOIOpen Access PDF

Abstract

In the field of short-range optical interconnects, the development of low-power-consumption, ultrawideband on-chip optical waveguide amplifiers is of critical importance. Central to this advancement is the creation of host materials that require low pump power and provide ultrabroadband emission capabilities. We introduce a tri-doped lanthanum aluminate glass (composition: 5Er2O3-5Yb2O3-0.2Tm2O3-43.8La2O3-46Al2O3), which exhibits exceptional near-infrared (NIR) luminescence intensity, significantly outperforming other bands by 3 orders of magnitude. This glass can achieve an ultrawideband NIR gain spanning 478 nm, from 1510 to 1988 nm. Notably, the glass achieves positive optical gain with a low population inversion threshold (P>0.2), highlighting its efficiency and low-power consumption. The high glass transition temperature (Tg∼842°C) and large temperature difference (ΔT∼120°C) between Tg and the onset of crystallization (Tx) indicate excellent thermal stability, which is crucial for producing high-quality amorphous films for on-chip amplifiers. This research examines the unique energy levels and spectral properties of the Er3+-Yb3+-Tm3+ tri-doped glass, assessing its potential for use in ultrawideband on-chip optical waveguide amplifiers. This work lays the groundwork for low-power, ultrabroadband on-chip waveguide amplifiers, offering new avenues for short-range optical interconnect systems.

Topics & Concepts

Power consumptionAmplifierDopingChipMaterials scienceWaveguidePower (physics)OptoelectronicsOptical amplifierOpticsElectrical engineeringCMOSPhysicsEngineeringLaserQuantum mechanicsGlass properties and applicationsPhotonic and Optical DevicesPhotonic Crystals and Applications