Newsletter | January 31, 2026

01.31.26 -- Thermal Management In Dense Photonic Integration

FROM THE EDITOR

Thermal Management In Dense Photonic Integration

By John Oncea, Editor

As photonic integrated circuits pack more components into smaller chips, power density and thermal effects create fundamental performance limits through thermo-optic resonance shifts, crosstalk, and stability challenges that scale nonlinearly with integration density.

Quantum Engineering At The Nanoscale: The Power Of Superlattice Design

By John Oncea, Editor

Superlattice engineering enables atomic-precision control of semiconductor electronic and optical properties through nanoscale layering, creating devices impossible with bulk materials.

INDUSTRY INSIGHTS

More Signal, Less Background: Improving Signal To Noise Ratio

By Iridian Spectral Technologies

Optical Filters For Challenging Applications

By Schneider Optics

Choosing Between Active and Passive Methods for Enhanced Efficiency

By PI (Physik Instrumente) LP

Beam Splitter Coatings

By Abrisa Technologies

How To Specify A Custom-Designed Instrument

By Mad City Labs, Inc.

Nanopositioning Systems And Advanced Motion Control For DNA Sequencing

By PI (Physik Instrumente) LP

Common Micro Optics Questions, Explained

By Accumold

Glossary Of Optics Industry Terms

By PG&O Precision Glass & Optics

Distortion In High Performance Reflectors

By Alluxa, Inc.

HD Thermal Imaging For Defense Research And Test Ranges

By Teledyne FLIR

The Science Behind The Calibration Process

By Gentec Electro-Optics, Inc.