PhD-student: Active metasurfaces enabled by spatially programming gain and loss
The Resonant Nanophotonics group seeks a talented PhD student to explore the physics of active metasurfaces with programmed gain and loss. Metasurfaces are 2D arrangements of nanostructures that resonantly scatterer, and jointly can act as analog signal processing components: upon reflection or transmission of an input wavefront they can encode a complex optical function, programmed as an optical transfer function or hologram. Viewed as an enabler for optical processing, metasurfaces are fundamentally limited by being linear and by being passive, i.e, by providing only loss, and no gain. In this project we aim to lift this fundamental limitation by realizing metasurfaces in which, within the nanoscale unit cell, both optical loss and optical gain can be programmed. The successful candidate will develop a pump-probe femtosecond scattering set up with spatial amplitude control over an optical pump beam generating gain, and study the fundamental limits of metasurface function acting on complex wavefronts. In addition to shaping optical gain with light, we will also shape it with nano-patterning, using top-down and bottom up methods to generate gain material superstructures, such as quantum dot supersolids and lattices. These will at the same time act as the strongly scattering building blocks of metasurfaces and provide gain / cooperative emission upon pumping. Thus this project has the potential to extend optical metasurfaces from passive to active, from linear to non-linear, and possibly also from classical to quantum optics, and furthermore ties in to recent developments in PT-symmetry and topological photonics.
About the group
The Resonant Nanophotonics team is part of the Center for Nanophotonics at AMOLF, and studies light-matter interactions in nanoscale systems, such as metasurfaces and plasmonic antennas. We investigate the fundamental physics associated with controlling spontaneous emission, lasing and cooperative emission engineered by optical field confinement in tailored nanophotonic systems, as well as the applications they allow. Your project will involve the use and development of advanced optical measurement techniques and nanofabrication, with extensive support from the group leader and AMOLF technical staff. Within the group and the Center for Nanophotonics, we have a strong focus on stimulating development of young researchers in all professional aspects, as well as collaborations with other researchers at AMOLF and in national and international contexts. For more information, see www.koenderink.info
This project will be a close collaboration with the team of Prof. Dr. Peter Schall at the Van der Waals-Zeeman Institute, Institute of Physics (WZI-IOP), University of Amsterdam, located on the same campus as AMOLF. You will benefit from the expertise in self-assembly of quantum dot solids of the team at WZI-IOP, and will collaborate on joint experiments with members of the WZI-IOP lab. For more information on the UvA team, see https://iop.fnwi.uva.nl/scm/
We seek an excellent candidate with a background in physics and experience with experiments in a field such as optics, microscopy, spectroscopy, photonics, or AMO physics. You will need to meet the requirements for an MSc-degree, to ensure eligibility for a Dutch PhD examination.
Terms of employment
The position is intended as full-time (40 hours / week, 12 months / year) appointment in the service of the Netherlands Foundation of Scientific Research Institutes (NWO-I) for the duration of four years. After successful completion of the PhD research a PhD degree will be granted at the University of Amsterdam. Several courses are offered, specially developed for PhD-students. AMOLF assists any new foreign PhD-student with housing and visa applications and compensates their transport costs and furnishing expenses.
Prof.dr. A. F. Koenderink
Group leader Resonant nanophotonics
Phone: +31 (0)20-754 7100
You can respond to this vacancy online via the button below.
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– List of grades and courses followed;
– Motivation on why you want to join the group (max. 1 page);
– List of at least two references, with their contact information
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