Publishing fundamental and applied photonics research across multiple disciplines The name APL Photonics is about values and community. “APL” stands for the values we share with our parent (Applied Physics Letters) and sister (APL Materials) journals - promoting significant advances and novel understandings in our fields through research reports that are driven forward by peer-review.
As a new, open access journal for the photonics community, APL Photonics expands on these values and is the home for fundamental and applied multidisciplinary research anchored in photonics, and the platform for next-generation innovations in the field. In response to the diverse community and its communication needs the Journal features Articles, Letters, and Special content – specifically Invited Articles, Perspectives, Tutorials and Special Topic sections. – see the guide for authors for details on the different article types: https://publishing.aip.org/authors/journal-guidelines. Covered topics include: Light sources Nonlinear optics Optoelectronics Nanophotonics Plasmonics Biophotonics and biomedical optics Ultrafast photonics Optical communications Quantum photonics Optical imaging Photovoltaics Guided wave optics Sensors Terahertz Manuscripts that focus on mathematical and computational problems only marginally related to photonics are not suitable for publication in APL Photonics. Similarly, papers focused on incremental technical advances, engineering applications, or materials science are outside the journal’s scope.
Join us on December 10-11 for COVID-19 and Photonics: A FREE Virtual Symposium providing a valuable forum for researchers to share their novel findings and discuss challenges and potential solutions.
Register for free: http://ow.ly/s7Em50CjQDp
Join us on December 10-11 for COVID-19 and Photonics: A FREE Virtual Symposium providing a valuable forum for researchers to share their novel findings and discuss challenges and potential solutions.
Register for free: http://ow.ly/s7Em50CjQDp
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By combining measurements that determine strain differently, the multipronged approach can lower noise contributions and determine the source and magnitude of strain with improved precision.
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Catch up on one of the most cited articles published in APL Photonics!
Join us on December 10-11 for COVID-19 and Photonics: A FREE Virtual Symposium providing a valuable forum for researchers to share their novel findings and discuss challenges and potential solutions.
Register for free: http://ow.ly/YTcl50CjQyo
COVID-19 and Photonics December 10-11*, 2020 | Virtual Symposium *Date and time varies. See scheduling Photonics plays an important role in coronavirus detection as well as clinical diagnosis and therapy of COVID-19 and its complications via optical sensing, spectroscopy, and imaging. For example, i...
Ryotaro Konoike of Kyoto University is the recipient of the 2019 APL Photonics Future Luminary Award for his paper
“On-chip dynamic time reversal of light in a coupled-cavity system.” For more info on the award and Konoike’s interview: http://ow.ly/umCO30rjBtN
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Highlighting one of the most cited articles published in APL Photonics.
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Highlighting one of the most cited articles published in APL Photonics.
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Celebrate Open Access week with one of the most highly cited articles published in APL Photonics.
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Researchers gather spatially localized feedback (SLF) via self-assembled crack sidewalls made of biomaterials and generate directional random laser emissions due to the diffuse reflection by these sidewalls.
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Catch up on the latest research published in APL Photonics.
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A recently published article highlighted by the Editors of APL Photonics.
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Review highlights short-term solutions for immediate COVID-19 mediation and long-term solutions for prevention.
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Silicon-based integrated photonic device harnesses acousto-optic interactions to achieve a narrowband, tunable, and multi-pole filter for future signal processing systems.
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A recently published article highlighted by the Editors of APL Photonics.
AIP Publishing
A recently published article highlighted by the Editors of APL Photonics.
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An alternative method of light stopping with applications for optical signal storage that utilizes a refractive index perturbation moving along a waveguide.
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Investigators demonstrate acousto-optics in lithium niobate films on sapphire with bright prospects for monolithic piezoelectric and photonic circuits and systems.
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An integrated interferometer system uses refractive index changes to sense gas on the order of parts per billion.
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Catch up on cutting-edge research in photonics from APL Photonics!
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A quantum well diode laser optical frequency comb is used to perform dual-comb spectroscopy measurements in the 2 μm wavelength region with 50 mW of optical power.
Miss going to conferences? We do too. Until we meet again, check out our virtual booth: http://ow.ly/P9iY50ABmbP
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Read from APL Photonics' Special Topic: Hybrid Integration beyond Silicon Photonics!
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Read from APL Photonics' Special Topic: Hybrid Integration beyond Silicon Photonics.
Call for Papers! Submit to this Special Topic today: http://ow.ly/WfOq50AvgeP
Watch a short video message from Editor-in-Chief Ben Eggleton on the Journal Impact Factor announcement.
AIP Publishing
A nanolaser modulation technique uses mode-field switching to successfully control stimulated emission, potentially enabling high-speed modulation for future applications.
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Ryotaro Konoike of Kyoto University is the recipient of the 2019 APL Photonics Future Luminary Award for his paper “On-chip dynamic time reversal of light in a coupled-cavity system.” For more info on the award and Konoike’s interview: http://ow.ly/umCO30rjBtN
Watch a short video message from Editor-in-Chief Ben Eggleton on the Journal Impact Factor announcement.
Get an update on APL Photonics from Ben Eggleton and check out the AIP Publishing booth (1528) in the CLEO20 virtual exhibit hall for links to more information about the journal. http://ow.ly/SJAI30qFaeA
Watch a video from Editor-in-Chief Ben Eggleton announcing the 2019 Future Luminary Award Recipient! http://ow.ly/3Lv030qElAE
