Can we miniaturise the light sources? Yes! We can make lasers 10000 times smaller!
Prof. Jelena Vučković talking about their chip-scale Ti:sapphire laser at #nanop2025.
@nanop_photonics
Can a metal be electroluminescent? Scientifically intriguing talk by Prof. Emmanuel Baudin at #Nanop2025.
Metals like Tungsten have incandescence (glowing by heating) while semiconductors can have electroluminescence (emission by electricity)
Super informative and pedagogical talk by Prof. @garciadeabajo at #nanop2025, Paris.
Electrons can provide far better resolution given we understand light-electron interaction properly!
“The complexity is at the interface”
We know about solid-solid interfaces but what about solid-liquid interfaces at the interface!?
Plenary talk by Prof. @lnet_epfl at #nanop2025.
A center dedicated to Physics and Medicine with optics at its heart!That’s really exciting.
Can physics cure?!
Photo from the plenary talk of Prof. V. Sandoghdar at #nanop2025.
“Metal or Dielectric, that is the question” in any nanophotonics conference.
Planary talk on extreme MIR nanophotonics from Prof. Jeremy Baumberg at the #NANOP2025, Paris.
@nanop_photonics
It brings together the expertise of the PR in metasurfaces; (CNRS-C2N, France) in silicon photonics, optoelectronics and nanofabrication; (#MIT, USA) in spectroscopy and machine learning, (Rice, USA) in lensless imaging and (#ZEISS, Germany) in spectroscopy and market analysis.
Speckle patterns are distinct features of disordered materials. The MetaSpectrometer harnesses the high information capacity of the speckle pattern of resonant disordered metasurfaces for compact, machine learning-assisted, non-invasive, and efficient near-infrared spectroscopy.
The Errata for one of my most mathematically intensive publications is out.
𝗟𝗲𝘀𝘀𝗼𝗻 𝗹𝗲𝗮𝗿𝗻𝗲𝗱: No matter how thorough we are, errors are always possible. Perfection is not the goal—persistence is.
𝗘𝗿𝗿𝗮𝘁𝗮: https://t.co/GjUSQztZ1p
Article: https://t.co/a00o3g0Coy