4 quantum-optics positions at AMOLF

Quantum nano-optomechanics

both light and motion down to the quantum level in optomechanical systems. All projects in the group involve the use and development of advanced optical measurement techniques and nanofabrication, with

PhD-student: Nanophotonics and quantum physics with electrons and light

at will. The CL microscope is then operated as a quantum instrument with well-prepared initial electron states that may be entangled with materials excitations. This enables studies of optical excitations

Postdoc: Inverse design of photonic metamaterials through physics-informed deep learning

optical resonators. We investigate the fundamental physics associated with such interactions, which are enhanced through optical field confinement in tailored nanophotonic systems, as

Postdoc: Nanophotonics and quantum physics with electrons and light

at will. The CL microscope is then operated as a quantum instrument with well-prepared initial electron states that may be entangled with materials excitations. This enables studies of optical excitations