APL Photonics
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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 valu
es 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.

05/24/2023
Polarization-mediated multi-state infrared system for fine temperature regulation
Researchers have developed a continuous temperature-regulation system for passive radiative cooling using an infrared polarization valve, allowing for precise temperature control in all climate zones.
Passive radiative cooling has been spotlighted as a promising energy-saving cooling technology owing to its energy-free and zero-carbon emission for addressing

05/19/2023
Researchers have developed a continuous temperature-regulation system for passive radiative cooling using an infrared polarization valve, allowing for precise temperature control in all climate zones.
GIST: Gwangju Institute of Science and Technology
https://aippub.org/42fqwc6

05/15/2023
We present the first study on a degenerate backward wave optical parametric oscillator (BWOPO). At degeneracy the BWOPO is phase-locked and sum frequency generation of parametric waves is observed.
KTH https://aippub.org/44mbmUC

05/11/2023
We proudly present the 2022 APL Photonics Future Collection, featuring the winning article, along with notable papers by emerging investigators in the field of ! AIP Publishing
Read below 👇
https://aippub.org/3LTILxu
https://aippub.org/3Bfk3Th
https://aippub.org/3I47JsF
https://aippub.org/41B8v7G
https://aippub.org/41uHWRs
https://aippub.org/3Mk0ZcA
https://aippub.org/41rNsUS
https://aippub.org/41B8BMA
https://aippub.org/3VS2sdv

05/10/2023
Calling all at ! Did you know that APL Photonics has an Early Career Editorial Advisory Board? Visit AIP Publishing Booth 355 to hear about this exciting opportunity!
Learn more 👇
https://aippub.org/3LFlLlG

05/09/2023
Have you heard the big news ? Husain Alqattan of The University of Arizona is the winner of the 2022 Future Award 🏆 for his recently published article!
Learn more 👇
https://aippub.org/3NJxPVI

05/09/2023
Hey ! Don't forget to stop by AIP Publishing Booth 355 TODAY May 9 between 2-3PM PST to chat with Professor Ben Eggleton, EIC of APL Photonics about all things & initiatives!
Learn more 👇
https://aippub.org/3nyFbAE

05/09/2023
Big congratulations to Husain Alqattan of The University of Arizona who is the winner of the 2022 Future Award 🏆 for his outstanding article!
Learn more 👇
https://aippub.org/3M5Id8P

05/08/2023
In San Jose for ? Stop by AIP Publishing Booth 355 tomorrow between 2-3PM PST to chat with Professor Ben Eggleton EIC of APL Photonics to hear about opportunities for !
Learn more 👇
https://aippub.org/3nyFbAE

05/05/2023
Attending next week? Stop by AIP Publishing Booth 355 Tuesday, May 9th between 2-3PM PST to chat all things with -in-Chief Professor Ben Eggleton
https://aippub.org/3nyFbAE

04/28/2023
Only 2 days left! Visit https://aippub.org/3XxPtO2 for your chance to join the 2023 board. “My hope is to be able to advocate for the interests of early-career scientists at APL Photonics while exchanging with peers from all around the globe in a highly international and multi-disciplinary setting.”
–C.Benea

04/20/2023
Time is running out ⏳.
Apply today to be an important member of the Early Career Advisory Board. Learn more and apply at https://aippub.org/41nPHJK. See what Hongbao Xin, one of our newest members had to say! 👇

04/13/2023
Exploiting graph neural networks to perform finite-difference time-domain based optical simulations
We use graph neural networks (GNN) to simulate light propagation through a structured environment. Our GNN extrapolates highly accurate to arbitrarily large domains on square or unstructured meshes.
Having an artificial neural network that solves Maxwell’s equations in a general setting is an intellectual challenge and a great utility. Recently, there have been multiple successful attempts to ...

04/10/2023
Vectorial sculpturing of spatiotemporal wavepackets
Researchers demonstrate a new spatiotemporal shaping approach with broad potential applications that requires vectorial coherent control of light matter interactions.
Spatiotemporal vectorial pulse shaping can produce ultrafast optical pulses that enable unprecedented coherent control for light–matter interactions. A traditional pulse shaper produces ultrafast p...

04/10/2023
Integrated buried heaters for efficient spectral control of air-clad microresonator frequency combs
Efficient micro-heater to tune a microcomb can still be implemented despite the lack of top cladding material, if buried below the photonics layer without impacting the optical properties.
National Institute of Standards and Technology (NIST)
Integrated heaters are essential in the photonics toolbox, particularly for microresonator frequency tuning through the thermo-refractive effect. Resonators that are fully embedded in a solid cladd...

04/07/2023
Graph neural networks solve Maxwell’s equations numerically
Machine learning tools solve fundamental electromagnetism equations independently of the domain size.
Machine learning tools solve fundamental electromagnetism equations independently of the domain size.

04/06/2023
Scalable selective absorber with quasiperiodic nanostructure for low-grade solar energy harvesting
This work reports a scalable selective absorber with quasi-periodic nanostructure (equivalent absorption >94% and emissivity
Although the solar-thermal technology has opened up a potential green energy harvesting method, it is challenging to suppress the non-negligible energy dissipation while maintaining a high absorban...

04/05/2023
Broadband, high power THz source at 540 kHz using organic crystal BNA
This works presents an organic crystal-based THz source operating in the multi-hundred kHz repetition rate regime combines high average power, bandwidth, and dynamic range.
We demonstrate efficient optical rectification in the organic crystal BNA (N-benzyl-2-methyl-4-nitroaniline), driven by a temporally compressed, commercially available industrial Yb-laser system op...

04/05/2023
High-resolution time-resolved spectroscopy based on hybrid asynchronous optical sampling
A hybrid ASOPS-based time-resolved spectroscopy for emission spectrum is proposed and experimentally demonstrated with high frame rate and spectral resolution.
The capability of characterizing arbitrary and non-repetitive emission spectra with a high resolution in real-time is of great merit in various research fields. Optical frequency combs provide prec...

03/30/2023
📢 Call for Papers!
micro/nanostructures with unique capabilities for control in both & ranges are emerging as a novel # effective approaches to manage . This special topic celebrates these . Submit by April 30, 2023.
Guest Editors: Shanhui Fan, Chengwei Qiu, Keng-Te Lin, APL Photonics Editor: Baohua Jia
https://aippub.org/3T2aMnZ

03/29/2023
Just a month left to apply! Visit https://aippub.org/3YtJr1k Carlos Rios Ocampo shares why he was excited to join the 2023 cohort…“An opportunity to learn about the editorial aspects of scientific publications and to bring innovative views towards equality in scientific publication and access.”

03/17/2023
Device makes passive radiative cooling effective in all climates
The zero-emission, energy free, and low-cost temperature regulation system can be continuously adjusted for precise heating and cooling.
The zero-emission, energy free, and low-cost temperature regulation system can be continuously adjusted for precise heating and cooling.

03/16/2023
Graph neural networks solve Maxwell’s equations numerically
Machine learning tools solve fundamental electromagnetism equations independently of the domain size.
Machine learning tools solve fundamental electromagnetism equations independently of the domain size.

03/14/2023
Simplifying night vision with advanced electronics
Silicon-OLED upconverters simplify the complex circuitry of infrared-to-visible devices for lower-cost, higher-resolution images.

03/10/2023
Interested in applying for the Early Career Advisory Board? Visit https://aippub.org/3XxPtO2 for more information. Read why newest member, Peijun Guo, is excited to be a part of the 2023 cohort! 👇

03/03/2023
Nanoparticles Self-Assemble to Harvest Solar Energy - AIP Publishing LLC
Creating an efficient, cost-effective, and flexible solar energy harvesting design based on self-assembled nanoparticles
Creating an efficient, cost-effective, and flexible solar energy harvesting design based on self-assembled nanoparticles WASHINGTON, Feb. 21, 2023 – Solar-thermal technology is a promising environmentally friendly energy [...]

02/15/2023
”Being a part of the ECEAB is a valuable opportunity for me to expand my network to fellow board members on national and international levels and to gain experience and learn from a team of experts in the field.” Prof Noushin Nasiri, 2023 ECEAB Member. Apply today! https://aippub.org/3XxPtO2

02/14/2023
Realization of tunable plasma Lieb lattice in dielectric barrier discharges
This work presents a robust and tailorable plasma Lieb lattice in dielectric barrier discharges. Fast reconfiguration between square lattice, Lieb lattice, and various Lieb superlattices are achieved.
Lieb lattice has been proven to host various extraordinary properties due to its unique Dirac-flat band structure. However, the realization of tunable Lieb lattices with controllable configurations...

02/14/2023
Localized dynamics arising from multiple flat bands in a decorated photonic Lieb lattice
This article reveals the existence of oscillating compact localized states (OCLSs) arising from multiple flat bands in a photonic decorated Lieb lattice.
Photonic lattices have emerged as an ideal testbed for localizing light in space. Among others, the most promising approach is based on flat band systems and their related nondiffracting compact lo...

02/13/2023
An ultra-fast liquid switch for terahertz radiation
When you press a switch, you connect two solid metal wires and allow a flow of electrical charges. Could an ultra-short laser pulse turn a liquid, salty water, into an electrical conductor?
Ultra-fast switches are essential devices for basic research and technological development. Here, we demonstrate that aqueous solutions of sodium iodide can be used for this purpose. When pumped wi...

02/13/2023
Microfluidic devices for quasi-phase-matching in high-order harmonic generation
Miniaturizing complex XUV sources is currently a challenge in Photonics. Here we trace a novel route towards bright and flexible XUV generation inside integrated microfluidic devices.
The development of bright eXtreme UltraViolet (XUV) and soft x-ray sources based on high-order harmonic generation is boosting advances toward understanding the behavior of matter on the attosecond...

02/10/2023
Pendant droplets throw light a curve
Changing the shape of uncured ultraviolet resin droplets allows simple generation and control of non-diffracting, self-accelerating beams.

02/07/2023
Fast and sensitive terahertz detection with a current-driven epitaxial-graphene asymmetric dual-grating-gate field-effect transistor structure
An asymmetric dual-grating-gate epitaxial-graphene FET has demonstrated fast and sensitive terahertz detection at 300 K due to plasmonic and a new type of unipolar photothermoelectric mechanisms.
We designed and fabricated an epitaxial-graphene-channel field-effect transistor (EG-FET) featuring an asymmetric dual-grating-gate (ADGG) structure working as a current-driven terahertz detector a...

02/07/2023
MaxwellNet: Physics-driven deep neural network training based on Maxwell’s equations
We report a novel deep learning scheme that calculates the optical fields given the material distribution without the ground truth solution by using a physics-driven loss based on Maxwell’s equations.
Maxwell’s equations govern light propagation and its interaction with matter. Therefore, the solution of Maxwell’s equations using computational electromagnetic simulations plays a critical role in...

02/06/2023
A quantum cascade laser-pumped molecular laser tunable over 1 THz
This paper demonstrates a new compact laser source emitting on more than 120 individual frequencies between 250 GHz and 1.3 THz that has the potential to bridge the terahertz gap.
Despite decades of research, no frequency tunable sources span the terahertz gap between 0.3 and 3 THz. By introducing methyl fluoride (CH3F) as a new gain medium for a quantum cascade laser-pumped...

02/06/2023
Perspectives on nonlinear optics of graphene: Opportunities and challenges
Check out this Perspective article on future opportunities and possible pitfalls in the exploration and exploitation of graphene’s absorptive and refractive nonlinear optical effects. .vub
The first nonlinear-optical experiments with graphene date back over a decade, and a wide range of research breakthroughs has been reported since then, particularly on the third-order nonlinearitie...

02/02/2023
Profiling terahertz beam electric fields with a metasurface
Upconversion to ultraviolet-visible light using a metallic metasurface allows measurement of a terahertz beam’s electric field.

01/30/2023
High performance thin-film lithium niobate modulator on a silicon substrate using periodic capacitively loaded traveling-wave electrode
An large bandwidth electro-optic modulator without compromising the driving voltage based on the TFLN on a silicon substrate is presented with both low optical and low microwave losses.
Thin-film lithium niobate (TFLN) based traveling-wave modulators maintain simultaneously excellent performances, including large modulation bandwidth, high extinction ratio, low optical loss, and h...
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APL Photonics Editor-In-Chief, Ben Eggleton Announces the 2021 Future Luminary Award Recipients
Watch along as Benjamin Eggleton announces the 2021 Future Luminary Award Winners! https://bit.ly/3wr6ZqZ
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Comments
Ein selbstlernendes System erkennt Objekte. Dafür ist keine Kamera nötig, sondern nur noch ein einziger Strahlensensor. Verblüffende Experimente dazu liefert ein Forschungsteam vom Institut für Photonik der TU Wien.
Die überraschende wissenschaftliche Leistung wurde nun im Fachjournal APL Photonics präsentiert.
Bild: Versuchsaufbau an der TU Wien
Mehr erfahren: https://www.tuwien.at/tu-wien/aktuelles/presseaussendungen/news/verborgene-objekte-erkennen-mit-terahertzstrahlen
The network performance was good enough to support state-of-the-art atomic clocks, a step toward future airborne or space-borne systems. Optical clock networks such as this one can help meet the criteria for redefinition of time in the metric system, aid the search for mysterious dark matter, enable tests of Einstein’s theories of relativity and probe the Earth’s gravitational shape.
Find the full details on this advance in timekeeping in APL Photonics: https://aip.scitation.org/doi/10.1063/5.0010704