AMOLF

July 2 - August 27, 2018

During the summer there is no Public Colloquium

Research fields

Researchers at AMOLF are continuously searching for the fundamental relationship between the architecture and interactions of complex molecular and material systems, ranging from nanophotonic structures to multicellular organisms, and their properties and functions.

Explore the AMOLF research themes

What makes AMOLF unique

An academic institute for fundamental physics with high societal relevance
A closely knit multidisciplinary environment where new ideas flourish
An incubator for talent
Outstanding technical infrastructure
Close contact with universities, research institutes and companies throughout the world

Learn more about us and our mission

June 20, 2018

2018 Pierre-Gilles de Gennes prize for Gijsje Koenderink

Read more
June 18, 2018

AMOLF, Thermo Fisher and Delmic present ultrafast SEM cathodoluminescence microscopes

Academic-industry collaboration leads to product on the market in two years A team of AMOLF, Thermo Fisher Scientific and Delmic has constructed two new microscopes that can take optical images …

Read more
June 7, 2018

WIN Rising Star Award for Bruno Ehrler

Bruno Ehrler (group leader Hybrid Solar Cells) has won the WIN Rising Star Award of the year 2018. The prize is a new initiative from the Waterloo Institute for Nanotechnology …

Read more
June 4, 2018

From sea urchin skeleton to semiconductor

Read more

Physicists catch light in the eye of the storm

Stillness rules the eye of a hurricane; without a hurricane no eye, and without an eye no hurricane. In a similar manner, physicists of research institute AMOLF, the University of Amsterdam and the University of Texas at Austin, have captured light in the eye of an optical vortex. “The light could move in any direction but does not do so,” says researcher Hugo Doeleman. The research will be published on June 4th in the top …

A Microscopic Roundabout for Light

AMOLF develops a magnet-free optical circulator Circulators are important components in communication technology. Their unique way of routing light usually requires centimeter-sized magnets, which are difficult to miniaturize for use on optical chips. Researchers at AMOLF and the University of Texas have circumvented this problem with a vibrating glass ring that interacts with light. They thus created a microscale circulator that directionally routes light on an optical chip without using magnets. The researchers publish their …

During the summer there is no Public Colloquium

Research fields

What makes AMOLF unique

2018 Pierre-Gilles de Gennes prize for Gijsje Koenderink

AMOLF, Thermo Fisher and Delmic present ultrafast SEM cathodoluminescence microscopes

WIN Rising Star Award for Bruno Ehrler

From sea urchin skeleton to semiconductor

Physicists catch light in the eye of the storm

A Microscopic Roundabout for Light

Visiting address

Delivery address

Mail address

Partners