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Polariton Logic

In 1965, Gordon Moore predicted that the number of transistors on a chip would double every year to reach 65 000 by 1975. When that remarkable prediction proved true, he revised the doubling rate to every two years, and that became known as Moore's Law. Almost 50 years after Moore's seminal prediction, traditional chip architectures are reaching their technological, practical and economical limits. The EU-funded POLLOC project is exploiting an all-optical approach that takes us beyond current transistor technology. By replacing electrons with photons, optical transistors and all-optical logic gates are envisaged that could bypass the fundamental limitations of the current electronic transistors. Moreover these novel devices offer processing at the speed of light to achieve energy-efficient massive processing required for tomorrow’s high-efficiency and high-power computing platforms.

HPERO lectures by Gabriele RAINO

Dr. Gabriele RAINO, Principal Investigator from our ETH Zurich partner of POLLOC and a HPERO lecturer, has delivered an amazing course about solution-processable perovskite quantum dots.

The GDR HPERO 2021

The thematic school HPERO organised by Dr. Claudine KATAN, Research Director and Principal Investigator from our CNRS partner

Our paper on Advanced Optical Materials

Find out about our recently published work on turning the undesired photoluminescence blinking into useful stuff for super-resolution optical microscopy!

Take a look at our JACS paper!

Discover how we quantify optically induced polaronic distortions in CsPbBr3 perovskite nanocrystals via ultrafast element-selective probing, from our paper on JACS.

A virtual kick-off for PoLLoC

PoLLoC has been officially started, while all participants remained at home, we gathered online to discuss great science!