This paper will discuss how the unit manufacturing cost of AMOLED displays can be reduced by as much as 40% through the use of a flash vaporization source first presented at SID 2006. This cost reduction is achieved principally through higher materials utilization and higher productivity.
Here we present direct attachment of multiple optical fibers to PIC chips at arbitrary pitches. Each fiber is actively aligned and then “tacked” by directly transmitting UV light down the fiber itself.
AIM Photonics has had an active multi-project wafer (MPW) program since 2015 and in our latest work we will present our new integration aimed at the reduction of waveguide propagation losses. Often low losses are prioritized for passive MPWs runs but for key application spaces such as Telecommunications and Quantum Technology, it is imperative to incorporate both low-loss waveguides and active devices on a single die. Within this work we have demonstrated a loss of 1.0 dB/cm in Si strip waveguides and 0.48 dB/cm in SiN waveguides, a reduction of 0.4-3.5 dB/cm and 1-1.5 dB/cm, respectively, when compared to other MPW foundries.
We demonstrate integration of periodically-poled KTiOPO4 (PPKTP) waveguides generating visible-telecom wavelength photon pairs with Photonic Integrated Circuits, bridging visibly-accessed quantum technologies and telecom infrastructure. High pair rates, heralding and telecom-filterless operation are demonstrated.
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