We are glad to welcome our new #BJNANO #AssociateEditor Lan Fu from The Australian National University @OurANU.

Her research fields are on #nano-optics, #nanophotonics, #OptoelectronicDevices and #semiconductors.
#BJNANO 💎🔓

🔗 https://www.beilstein-journals.org/bjnano/boardMembers/27639242/?M=y

Pitt Scientists Are Finding the Flux of Quantum Technology https://thequantuminsider.com/?p=2356311 #Research #Flux #Hong_Koo_Kim #nanophotonics #Pitt #quantum_dots #quantum_flux #University_of_Pittsburgh #University_of_Pittsburgh_Swanson_School_of_Engineering #quantumdaily Insider Brief University of Pittsburgh researchers discovered that a quantum dot emitter traps a large amount of energy. This is the first time a dipole has been studied on the inside. Researchers suggest that the work could

#MyPaperInAToot

#Chiral (left/right-handed) molecules are crucial to biochemistry. Light can distinguish between them but interacts too weakly, and boosting with #nanophotonics is not easy because it destroys chirality of EM fields. Typical solution is to design #nanostructures with highly chiral field that makes molecules absorb circularly polarised light differently. Here we find a much stronger effect where the molecules make nanostructures absorb light differently!

https://pubs.acs.org/doi/10.1021/acs.nanolett.3c00739

#plasmonics #chirality #phd #research #nanooptics #nanophotonics #chiral

Hello Mastodon!

This is account of the group led by Alberto Bramati, Quentin Glorieux and Hanna Le Jeannic (@Quantum_Hanna) at the Laboratoire Kastler Brossel (@lkb_lab)

We study nano-optics, quantum emitters and quantum fluids of lights in Rb vapors and polaritons.

#quantumoptics #quantumgas #rubidium #polaritons #nanophotonics #emitters #nanofibers #quantumfluids #quantumlight

Just attended a workshop organized by the UK metamaterials network. Prof. Tiziana Cesca of the University of Padova (Italy) gave a talk about her research on metamaterials, specifically hyperbolic materials. Very interesting talk on a unique material.
#photonics #optics #nanophotonics #nanomaterials #research

#Introduction

Hi! I'm a physicist specialized in the modelling of #LightScattering and transport in #ComplexMedia. Very interested in #Maths and #NumericalMethods in general.

I'll share some news about my own research from time to time, but more importantly, I'm eager to learn more about research in other fields, in particular, #ClimateModelling and physically-based #Rendering.

#MultipleScattering #Optics #Photonics #Nanophotonics #MesoscopicOptics

#ScienceOutreach at #ImperialCollegeLondon

Presented my scientific artwork on network lasers at Imperial Lates: Tiny Science. Our research on network lasers combines #Nanophotonics, #GraphTheory and #MachineLearning to create tiny lasers whose colour of emission can be finely controlled.

How do I find people from my field (that are possibly on other servers)?

#MastodonAcademics #academic #academicmastodon #plasmonics #nanooptic #nanooptics #nanophotonics

#MyPaperInAToot

#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).

https://doi.org/10.1021/acsphotonics.9b01200

@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.

So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.

#nanophotonics #FluorescenceFriday

#MyPaperInAToot

Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103

More #photonics researchers to follow 🚨 :

Eric Goerlitzer
@Goerlitzer_etal
Kevin Vynck
@kvynck
Matthew Fuchter
@FuchterMatt

#nanophotonics #optoelectronics #nanotechnology #chirality

A round-up of some of the fantastic #photonics researchers that recently joined Mastodon:

Delia Milliron @DeliaMilliron
Florian Marquardt @FMarquardtGroup
Sylvain Gigan
@sylvaingigan
John Dudley @johnmdudley
Turgut Durduran
@ulugeyik
Susana Rocha
@Rocha_Lab

#optics #nanophotonics #biophotonics #microscopy #QuantumOptics #physics