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🔓 #OpenAccess: "Nanophotonic Chirality Transfer to Dielectric Mie Resonators" by Mohammadi, Raziman, & Curto go.acs.org/4Te

What a wonderful event, a huge thanks to the people behind our “Tiny Light”Anna Fischer, Cynthia, Dhruv Saxena, Jakub, Kit, Raziman T. V., Romain Tirole CORAL - Controlling Network Random Lasers on Chip London Centre for Nanotechnology Megan Grace

Join me at our stand at Great Exhibition Road Festival at Imperial College London tomorrow where you can discover all kinds of light phenomena and lasers and what we do in our research at IBM Research! Together with LondonLight Dhruv Saxena Raziman T. V. Jakub Dranczewski Riccardo Sapienza

Our team is giving 6 talks at #CLEOEU2023 😍. Come and listen to: Cynthia Vidal: Performance of gallium phosphide nanoantennas from optimized design, Monday 26th @ 9:15am, EG-1 Raziman T. V. Spectral Control of Random Network Lasers, Friday 14:15, Room 4a. 1/3

New paper from our group 🤩 "Controlling lasing around Exceptional Points in Coupled Nanolasers" arxiv.org/abs/2306.16112 you can also listen to Anna Fischer Friday 11:30 Room 14a ICM #CLEOEU2023 CORAL - Controlling Network Random Lasers on Chip

Testing out my first Custom GPT Agent - chat.openai.com/share/b469eec5… Dynamic programming tutor based on some answers by Raziman T. V.

I'm going to present my poster on spectral control in coupled InP nanolaser at #POM23 today in the #POM23_HOTTOPICS session.

Our latest paper!

Check out my first first-author publication on controlling lasing around exceptional points in coupled nanolasers published in npj Journals Nanophotonics yesterday. Riccardo Sapienza Raziman T. V. @KEMoselund Dhruv Saxena Jakub Dranczewski nature.com/articles/s4431…

Our latest paper!

New paper from the lab! 🤩 Super-luminal Synthetic Motion with a Space-Time Optical Metasurface, 🔦arxiv.org/abs/2407.10809, Raziman T. V. Romain Tirole

Latest preprint from the lab: How can we make computers "see" things the way animals do? Our answer: With complex lasers!

What a shame.

We have all seen various ridiculous pseudoscientific claims being pushed in education and curricula at different levels under the name of ‘Indian Knowledge Systems’ (IKS). Please read our statement against such misuse: docs.google.com/document/d/1R-… Feel free to circulate this appeal.

Latest paper! Modern lasers come in various shapes and sizes. We made a spider web-like semiconductor laser, thinner than a human hair. It is multicolour and very sensitive. They are promising for photonic chip integration. We are currently teaching them to do image recognition!

Powerful laser light can overcome some typical material limitations: It can create new colours of light with double the frequency, and change material properties rapidly. We study frequency-doubled light in a time-varying material and use this effect to do computations!