We made the news with the world's first commercially available metal bonded magnet: https://t.co/S7AoGWhP1R
It can change the way we build electric motors, actuators, sensors and more! #ElectricVehicles#Future#technology#innovation#Tesla
DM for samples!
@MeghanEMurphy It’s challenging to balance both the inevitable loss of jobs and the unavoidable progress coming through. Repetitive jobs are soul-crashing hellscapes, having worked on a factory production line I do not wish them to anyone. Focus needed on smoothing this transition & training.
@audrey_unver And it gets really interesting when it comes to the science of matter. Marble and stone engineered by nature through millennia age gracefully, while modern concrete cannot even compete with Roman concrete in longevity and sustainability. 2020's concrete R&D is just catching up.
@audrey_unver Ideological fixations won over what the Ancient Greeks called "the human measure", i.e. sense of proportion and/or balance. The test of time is ironically brutal comparing grotesque 50 yo brutalist monstrosities to timeless beauties from the antiquity through the early 20th c.
Register today: Ted Tsoulos present Ti NdFeB, a novel metal bonded magnetic material from EPoS Tec.
LARM2025 - Linear and Rotating Machines
24-25 June 2025
Newcastle, UK
https://t.co/gc3bKKNKrS
UKMS: Connecting people who do magnetics research and applications
At LNET we have an opening for a #postdoc position in #Spectroscopy! Please apply through the @EPFL_en platform if interested or share with potential candidates. https://t.co/bEwI5mrtJJ
Physics texts tell us particles come in only 2 types - fermions or bosons. Our Nature paper today shows other, thought-to-be forbidden, particles are possible. Why you should care & addressing a concern I’m sure some experts have: “this must be wrong!” (warning: mammoth thread)
In this work, we demonstrate the design of an ultrathin temperature-tunable metalens. The focal length of metalens can be linearly shifted as increasing temperature.
#POM20ju@PhotonicsMeetup@lnet_epfl
Dielectric Nanoresonators are known for both low-loss and optical heating applications. It is necessary to calculate for the optical self-heating when designing applications as our analytical and numerical tools showcase. @PhotonicsMeetup#POM20ju#POM20LM@lnet_epfl#nanoheat
@MikolajKSchmidt@PhotonicsMeetup@lnet_epfl For NR self-heating ->e.g. DOI:10.1002/lpor.201200003. @gbaffou @RomainQuidant . In @lnet_epfl we focus on self-heat of thermo-optically sensitive NR as their optical properties shift with self-heat and so does the heat until the two (temperature & absorption) equilibrate. (2/3)
In this work, we demonstrate the design of an ultrathin temperature-tunable metalens. The focal length of metalens can be linearly shifted as increasing temperature.
#POM20ju@PhotonicsMeetup@lnet_epfl
A cactus-like hierarchical structure is fabricated from copper nanowire arrays coated with carbon nanotubes. We show that the obtained structure is angle- and polarization-independent with an extremely low reflectance across the visible to mid-infrared region. #POM20ju#POM20LM
Interesting work on thermo-optical tuning of plasmons! If you are also interested on how thermo-optical effects tune the response of dielectric nanoresonators check out our recent paper https://t.co/VFddD7Cft8 @tedtsoulos @Nanophotonics_J #Opticalproperties