-
. Christian Häger at the Department of Electrical Engineering , will be part of a large network of junior and senior researchers at Chalmers, Gothenburg University, and KTH performing state-of-the-art research
-
achieve this, we will couple a single atom in an optical tweezer to a mecanical oscillator. On the way to this goal, we will advance the state-of-the-art in nanomechanics, optomechanics and cavity quantum
-
. Strained nanomechanical resonators have reached state-of-the-art force sensitivities, but are composed of dielectric materials. We now seek to functionalize these resonators with nanomagnets for spin sensing
-
experts, state-of-the-art knowledge and innovative solutions. This vision permeates all of the department’s research, education and utilisation, which are characterised by excellence and based on a solid
-
the foremost experts, state-of-the-art knowledge and innovative solutions. This vision permeates all of the department’s research, education and utilisation, which are characterised by excellence and based on a