APL Photonics

05/22/2024

Complexities of Raman scattering have now been unified with a new vector theory across various temporal regimes in gas-filled hollow-core fiber, unveiling ultrafast dynamics in various colors.

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Raman scattering has found renewed interest owing to the development of gas-filled hollow-core fibers, which constitute a unique platform for exploration of nov

05/15/2024

For the first time, the temporal waveform of the electric field from a resonant nonlinear system is detected – an optical parametric oscillator emitting pulses with a stable carrier-envelope phase Universität Konstanz

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05/13/2024

The hybrid material integrated photonics inspires new and crucial applications for active photonics such as lasers and modulators etc.. This perspective highlights their advances and challenges.

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The huge development of micro-/nano-manufacturing techniques on different materials has greatly expanded the possibilities of realizing on-chip multifuncti

05/09/2024

Congratulations to APL Photonics Future Luminary Award Winner 🏆, Magdalena Furman! Learn more about the winner and how to submit at AIP Publishing Booth 809 or visit us online.
👉 https://aippub.org/4aORNqF

05/08/2024

📢 Calling all attendees!
Our Editor-in-Chief, Ben Eggleton, is presenting tomorrow at 2:30PM!

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https://aippub.org/3JHSVAr

05/07/2024

The APL Photonics (APP) Future Luminary Collection is a highly selective collection featuring notable APL Photonics papers by emerging investigators! Learn more at AIP Publishing Booth 809 or visit us online!
👉 https://aippub.org/3oAPi8u

05/07/2024

If you're attending stop by AIP Publishing Booth 809 TODAY from 3-4pm and meet our Editor-in-Chief Ben Eggleton and Associate Editor Alexander Szameitz!
👉 https://aippub.org/43Oh7J6

05/06/2024

Heading to ?
Stop by AIP Publishing Booth 809 Tuesday, May 7 from 3-4pm and meet our Editor-in-Chief Ben Eggleton and Associate Editor Alexander Szameitz!
👉 https://aippub.org/43Oh7J6

05/01/2024

Welcoming a new member in the semiconductor core optical fibre family. With strong optical nonlinearities, metal-free perovskite optical fibre opens up opportunities for nonlinear photonics. Newcastle University

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04/18/2024

Rydberg excitons allow a giant microwave-optical Kerr nonlinearity to be realised in a solid-state platform that is compatible with mK environments, with applications as a microwave-optical converter.

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04/06/2024

Introducing photonic crystals enables 1064nm microcombs with controlled spectral extent, advancing potential applications.

Schmidt Science Fellows
National Institute of Standards and Technology (NIST)
Technion - Israel Institute of Technology

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04/05/2024

Reminder ❗

This Special Topic is still open for submissions! Submit by July 31, 2024.

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https://aippub.org/3vvUMoe

03/22/2024

Novel free-form dual-comb platform uses programmable combs to tune resolution and update rate, boosting dual-comb hyperspectral imaging to 20 Hz update rate at broad 10 THz spectral coverage.

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03/08/2024

Reminder ❗

This Special Topic is still open for submissions! Submit by June 30, 2024!

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https://aippub.org/3tLzqT8

03/07/2024

Light-management strategies for ever-thinner solar cells are pedagogically reviewed, exposing guidelines for their optimal implementation whilst highlighting avenues for future developments.

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Ultra-thin solar cells, an order of magnitude thinner than conventional technologies, are an emerging device concept that enables low-cost, flexible, lightweigh

03/07/2024

The authors review the photonic topological states in 3D and higher-dimensional systems in different platforms and discuss internal connections between different photonic topological phases.

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Topological photonics is a rapidly developing field that leverages geometric and topological concepts to engineer and control the characteristics of light. Curr

02/28/2024

Palm-sized, vibration-insensitive and vacuum-free fiber photonic module stabilizes CW lasers and frequency combs, achieving remarkable stability and making it ideal for field applications.

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Compact and robust frequency-stabilized laser sources are critical for a variety of fields that require stable frequency standards, including field spectroscopy

02/24/2024

The authors comprehensively examine the recent progress of fiber Kerr microcombs and discuss how various phenomena in fibers can be utilized to enhance the microcomb performances.

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Optical frequency combs, which consist of precisely controlled spectral lines covering a wide range, have played a crucial role in enabling numerous scientific

02/23/2024

As 2023 has come to a close, we want to take a moment to celebrate what we’ve accomplished together. We're excited about what 2024 will bring to our authors, reviewers, and readers!

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https://aippub.org/3UBoEKb

02/19/2024

Reminder ❗

This Special Topic is still open for submissions. Submit by May 31, 2024!

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https://aippub.org/477Ea3g

02/16/2024

Our Editor-in-Chief, Professor Benjamin Eggleton provides his perspective on APL Photonics' success in 2023 & shares what he's excited about for 2024!

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https://aippub.org/48lQOMp

02/15/2024

Palm-sized, vibration-insensitive and vacuum-free fiber photonic module stabilizes CW lasers and frequency combs, achieving remarkable stability and making it ideal for field applications.

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02/12/2024

Don't miss out on this opportunity to join APL Photonics as our newest Associate Editor in or . Apply today before it's too late! 👇
https://aippub.org/3tC2lcp

02/06/2024

📢 Call For Papers

The Special Topic aims to foster a comprehensive understanding of the interplay between light and mechanical waves, highlighting the convergence of Brillouin and optomechanics research in tailored chip-scale structures. Submit by July 31, 2024!

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https://aippub.org/48OEh5

02/06/2024

Incorporating graphene in an optical microcavity, scientists developed a Brillouin laser sensor that enables rapid, label-free detection of various gas molecules with individual molecule sensitivity.

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Optical microcavities offer a promising platform for highly efficient light–matter interactions. Recently, the combination of microresonators and 2D materials i

02/01/2024

Are you a researcher with expertise in or ?
We encourage you to learn more about our open Associate Editor position APL
Photonics.
Apply today 👇
https://aippub.org/3tC2lcp

01/26/2024

Are you interested in joining an exciting editorial team at AIP Publishing?
Call for Applicants: Associate Editor of APL Photonics specializing in & !
Learn more and apply today.
👉 https://aippub.org/3tC2lcp

01/25/2024

The authors introduce a novel circuit for interfacing photonic integrated circuits with micro Fabry-Pérot cavity, ensuring efficient coupling and minimized back reflection.

The unique benefits of Fabry–Pérot resonators as frequency-stable reference cavities and as an efficient interface between atoms and photons make them an indisp

01/20/2024

Come join a team of leading experts in their fields as the next Associate Editor for APL Photonics Learn more and apply today!
👉 https://aippub.org/3tC2lcp

01/20/2024

Terahertz cyclotron emission from two-dimensional Dirac fermions is tunable by a gate voltage. This paves the way for the development of a permanent magnet cyclotron laser spanning the Terahertz gap.

Two-dimensional Dirac fermions in HgTe quantum wells close to the topological phase transition can generate significant cyclotron emission that is magnetic fiel