APL Photonics

10/15/2025

New THz Computational Phase Imaging technique reveals hidden structures, paving the way for broad potential applications in non-destructive biomedical diagnostics, and security.
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Advancements in terahertz (THz) technology have substantially propelled the capabilities of imaging systems; however, retrieving the complex phase distribution

10/14/2025

The authors study how laser pulse duration affects high-order harmonic generation and phase-matching by employing a compact pulse post-compression approach delivering tunable Fourier-limited pulse durations.
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High-order harmonic generation (HHG) in gases has been studied for almost 40 years under many different conditions, varying the laser wavelength, intensity, foc

10/13/2025

The authors experimentally demonstrate a seeded topology optimization paradigm for commercial foundry integrated photonic devices that yields improved performance compared to traditional topology optimization.
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We present a seeded topology optimization methodology for integrated photonic devices fabricated on foundry platforms that yields improved performance compared

10/01/2025

Laser pulse duration plays significant role in high-order harmonic generation.

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https://aippub.org/4nwN6Z3

Laser pulse duration plays significant role in high-order harmonic generation

08/05/2025

This article presents a two-stage TF-PPLN circuit for low-crosstalk AOWC, achieving a side-channel suppression ratio over 25 dB, significantly outperforming single-stage devices.

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All optical wavelength converters (AOWCs) that can effectively and flexibly switch optical signals between different wavelength channels are essential elements

08/05/2025

Yb-based optical frequency combs revolutionized spectroscopy and now, paired with enhancement cavities, enable ultra-intense laser-particle interactions in accelerators powering EUV and X-ray sources.

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Optical frequency combs (OFCs) are a revolutionary tool for metrology, spectroscopy, and, in general, the precise interaction of lasers with particles. In this

07/16/2025

We proposed a highly robust photon-level single-pixel wavefront detection technology with phase-denoising neural network, which can actively adjust to the turbidity variations from 0.1 to 100 NTU.

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Single-pixel wavefront imaging provides the possibility to accurately measure and process complex wavefronts in extremely low-light scenes. However, the noises

07/15/2025

Demonstration of an ultra-compact GaAs quantum dot source that emits on-demand entangled photon pairs with high purity, efficiency, and stability, ideal for scalable quantum tech integration.

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We demonstrate an ultra-compact source of on-demand, maximally entangled photon pairs using single GaAs quantum dots embedded in monolithic microlenses coupled

07/14/2025

This study presents ultra-fast, distortion-free TCSPC measurements with a Hybrid Photodetector, relying on a novel and experimentally validated pile-up correction method.

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Time-Correlated Single-Photon Counting (TCSPC) enables the measurement of low-intensity optical signals with sub-picosecond timing resolution. Its performance h

07/07/2025

In cloudy, murky conditions — such as underwater environments — light signals are weak.

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Combining single-pixel wavefront imaging with a custom neural network improves the photon imaging in cloudy environments.

05/16/2025

For the we are shining a light on our Future Luminaries! 💡 The Future Luminary Award and collection recognizes the exceptional work of early career researchers in photonics.

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👉 https://aippub.org/43bNiFr

05/11/2025

We demonstrate a high-fidelity mapping of Skyrmion topology from a laser beam onto matter, where its topological charge is recovered close to its original value in the laser beam.

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The ability of structured light to mimic exotic topological skyrmion textures encountered in high-energy physics, cosmology, magnetic materials, and superfluids