Feeling grateful and excited that our 'Consensus Statement' on next-gen photodetectors has made the cover of #NaturePhotonics! 🎉

📄 Free access to the paper 👉 www.nature.com/articles/s41...

Excited our 'Consensus Statement' on next-gen photodetectors is out in #NaturePhotonics! 🌏

53 experts set global guidelines for reproducible characterization of #photodetectors based on #Perovskites, #QuantumDots, #MetalOxides, #OrganicSemiconductors & #2DMaterials.

👉 doi.org/10.1038/s415...

Electrically triggered spin–photon devices in silicon - Nature Photonics Two types of on-chip silicon device utilizing silicon T centres are developed: an O-band light-emitting diode and an electrically triggered single-photon source. Further, a new method of spin initialization with electrical excitation is demonstrated.

Nature Photonics is a leading journal in light generation, manipulation & detection. Being published here is a big milestone—our paper introduces a new single-photon source + a method to electrically initialize the spin qubit of the T centre.
 
https://shorturl.at/XQEjh
 
#SFU #NaturePhotonics

In January, with our research partners at Simon Fraser University, we announced a pre-print on “Electronically-triggered spin-photon devices in silicon.” We’re thrilled this work is now featured in Nature Photonics!
 
#NaturePhotonics #QuantumTech

A new microscopy technique to capture the complexity of biological tissues - Talk iit The research was conducted by the team led by Giuseppe Vicidomini, with funding from the European Research Council (ERC) Until today, skin, brain, and all tissues of the human body were difficult to o...

A research team led by G. Vicidomini, PI of the IIT Molecular Microscopy and Spectroscopy Lab @vicidominilab.bsky.social , has published in #NaturePhotonics @nature.com a new imaging method that significantly enhances the observation of complex biological tissues.
opentalk.iit.it/en/a-new-mic...

Artistic representation by Lukas Kroll showing how the newly developed technique – Ultrafast Dark-field Momentum Microscopy – allows both bright excitons (shown in red) and dark excitons (shown in blue) to be analysed.

A glimpse into the dark! First time that the formation of dark excitons, tiny difficult-to-detect particles, were tracked precisely in time and space: s.gwdg.de/9JO9T2

This could lead to improved solar cells, semiconductors, etc.

#NaturePhotonics research: doi.org/g83j6q #Ultrafast #NanoImaging

#NaturePhotonics Direct radiation pressure measurements for lightsail membranes https://www.nature.com/articles/s41566-024-01605-w “a 50-nm-thick microscopic silicon nitride membrane: radiation pressure forces of 70 fN using a collimated beam of 110 W/cm² and noise-robust common-path interferometry“

#NaturePhotonics Direct radiation pressure measurements for lightsail membranes https://www.nature.com/articles/s41566-024-01605-w “a 50-nm-thick microscopic silicon nitride membrane: radiation pressure forces of 70 fN using a collimated beam of 110 W/cm² and noise-robust common-path interferometry“

🔮💡 Cristalli Spazio-Temporali Fotonici: La Rivoluzione della Luce! Scopri come la ricerca dell'Istituto di Tecnologia di Karlsruhe sta trasformando le comunicazioni wireless e i laser con materiali… I cristalli spazio-temporali fotonici aprono nuove prospettive nell'ottica avanzata e nelle comunicazioni ottiche, con applicazioni rivoluzionarie in quattro dimensioni.

🔮💡 Cristalli Spazio-Temporali Fotonici: La Rivoluzione della Luce! Scopri come la ricerca dell'Istituto di Tecnologia di Karlsruhe sta trasformando le comunicazioni wireless e i laser con materiali innovativi a 4 dimensioni! 🚀🌈 #InnovazioneOttica #CristalliFotonici #NaturePhotonics

Huh and we happy, chirpy #blueskiers are meeting here in Melbourne for #NFO17, @spie.org's Defence Workshop and #AIPCongress! #naturephotonics @igordownunder.bsky.social @tmos-arc.bsky.social!

And here we are!! @rachelpcwon.bsky.social #naturephotonics @tmos-arc.bsky.social

The authors have retracted this article. After publication it was brought to their attention that the luminescent solar concentrator (LSC) efficiency of 7.6% reported was incorrectly calculated. The correct value is 3.04%. This error arose because 40 cm2 (LSC edge area) was used as the device area instead of the correct area of 100 cm2 (LSC panel area). All authors agree with this retraction.

Ooofff! That has gotta hurt. How did that make it all the way through to publication in the first place? Would have loved to have been a fly on the wall of the group meeting when that error was discussed. #chemsky #naturephotonics