News

Product Publication

Label-Free, Single-Cell, Real-Time: Quantitative Phase Imaging Enables Functional Profiling of Immune Cytotoxicity

Teitell Lab at the University of California, Los Angeles (UCLA) developed a novel analytical platform combining Quantitative Phase Imaging (QPI) with machine learning. This platform enables the label-free, single-cell-resolved, real-time tracking and classification of T cell-induced cytotoxic events against tumor cells.

Aug. 22, 2025

Publication

Visualizing the Dynamics of Plasma Mirrors Using Wavefront Sensing

Aug. 14, 2025

Publication

Seeing the Invisible: How QPI Reshapes Early Drug Response Assessment

What if you could watch how cells respond to a drug in real time without labels, dyes, or waiting days for results? Quantitative Phase Imaging is making that possible.

July 25, 2025

Product Publication

SID4 SWIR-HR: A Commercial Reference for High-Precision Wavefront Measurement in ELT's SWIR Observations

To calibrate the internal wavefront sensor (ZELDA) under highly demanding conditions, the team turned to Phasics’ SID4 SWIR-HR—a short-wave infrared wavefront sensor built on QWLSI technology, delivering phase resolution better than 2 nm RMS.

May 23, 2025

Publication

Measurement of LIDT in SLM under Femtosecond Laser Exposure: Wavefront Sensing Reveals True Damage Mechanism

In ultrafast optics, the true damage limit of LC-SLMs lies at their interfaces. Wavefront sensing exposes how nonlinear effects trigger failure well before the bulk material gives way.

May 15, 2025

Publication

How High-Power Lasers Affect Optics — Measured with SID4

Even minimal optical absorption in high-power laser systems can significantly affect wavefront quality. Institut Fresnel and CILAS researchers recently leveraged Phasics' SID4 wavefront sensors to accurately measure thermal-induced wavefront distortions in thin-film optical components under high-power laser irradiation.

May 6, 2025