Quantum-physical fundamentals can be studied particularly well by the interactions between electrons and photons. Excited with laser light, for example, the energy, mass or velocity of the electrons ...

Researchers review recent advancements in electron-photon interactions in electron microscopes, furthering nonlinear integrated photonics and electron microscopy. Nonlinear optical ...

Researchers from Göttingen (Germany) and Lausanne (Switzerland) have successfully created electron-photon pairs in a controlled way in an electron microscope for the first time. Using a new method, ...

Swiss research center EPFL has used an integrated photonics approach to efficiently modulate an electron beam, potentially offering a new platform for investigations into free-electron quantum optics.

(Nanowerk News) The transmission electron microscope (TEM) can image molecular structures at the atomic scale by using electrons instead of light, and has revolutionized materials science and ...

A new study, published in early November in Nature Physics, details a breakthrough in understanding the dynamics of halide perovskites, revealing insights crucial for advancing optoelectronics ...

The increasing demand for advanced optoelectronic devices necessitates the development of materials that can efficiently absorb and manipulate light at the nanoscale. This research explores the unique ...

Researchers focus on their pathbreaking study on coupling free electrons with nonlinear optical states in integrated photonic microresonators NEW YORK, Oct. 31, 2025 /PRNewswire/ -- Nonlinear optical ...

Swiss research center EPFL has used an integrated photonics approach to efficiently modulate an electron beam, potentially offering a new platform for investigations into free-electron quantum optics.