ERC Advanced Grants for Laserlab Researchers
The European Research Council (ERC) has awarded several high-profile researchers within Laserlab-Europe an ‘Advanced Grant’. ERC Advanced Grants allow exceptional established research leaders to pursue frontier research of their choice.
2024
Andrei Kirilyuk (FELIX): Interaction of light with matter via control of terahertz phonons
With the ERC Advanced Grant project INTERPHON, Andrei Kirilyuk and his group challenge the existing ideas and understanding of the interactions between light and matter, creating a whole new research area at the junction of nonlinear optics, phononics and ultrafast magnetism. Light will be made to communicate with matter in an interactive way, so that matter reciprocates by changing the very resonance
used for excitation. To realise this, INTERPHON will develop novel research methods using short and intense pulses of infrared-to-THz-range free electron laser FELIX. The aim is energy-efficient and ultrafast manipulation of materials.
Thomas Stoehlker (GSI): Highly ionised trapped 229-thorium: A new paradigm towards a nuclear clock
Currently, there are intense research activities in many laboratories worldwide related to the “thorium clock” since such a “nuclear clock” opens new doors to fundamental physics such as e.g. testing time-variations of natural constants and exploring the enigma of dark matter. This may, in the long run, even enable the establishment of a new time standard. Thomas Stoehlker’s project “HITHOR” is a novel access to the “thorium clock” with the focus on highly-ionized 229-thorium, an elementary quantum-system, which consists only of the thorium nucleus and one or few electrons.
Thomas Udem (MPQ): High resolution laser spectroscopy of atomic hydrogen and deuterium
The standard model of particle physics explains how the world is organised at the smallest scale. However, it does not fit all physical observations. One approach to testing the model is to measure physical processes ever more precisely and to determine the constants of nature ever more accurately. With his ERC Advanced Grant, Thomas Udem wants to measure the energies for selected excitations of a hydrogen atom with unprecedented precision. To this end, he and his team will develop an optical trap for hydrogen atoms. In this trap, they can fix atomic hydrogen in such a way that its excitation can be determined with particular precision.
Javier García de Abajo (ICFO): Quantum-enhanced free-electron spectromicroscopy
In his project QUEFES, Javier García de Abajo will introduce a conceptually disruptive approach to capitalise on the quantum nature of free electrons and their interactions with matter and radiation fields aiming to obtain previously inaccessible information on the atomic-scale dynamics of such materials, to reveal hidden properties of the quantum vacuum, and to control the many-body state of quantum matter.
Roberta Croce (LLAMS): Photosynthesis in far-red: from cyanobacteria to plants
When plants grow close together, the lower leaves receive almost exclusively far-red light, which has been thought to be unusable for oxygenic photosynthesis. Recent discoveries, however, show that certain cyanobacteria, the ancestors of plant chloroplasts where photosynthesis takes place, can grow under far-red light. This is where Roberta Croce comes in: She receives an Advanced Grant for her research project “Fared
Well”, through which she aims to learn from those bacteria how to improve plant photosynthesis.
Johannes de Boer (LLAMS): Immunooptical coherence tomography
In the early stages, tumours are too small to be visible with PET and CT. Optical techniques have a much higher resolution and can detect tumours at a much earlier stage. With his ERC Advanced Grant, Johannes de Boer will develop a new optical endoscopic imaging technique to detect cancer in the human body with a resolution 10 to 100 times higher than currently possible. The major challenge is to develop very small motorised catheters that can penetrate deep into the body to determine both the structure and the molecular composition of tissue with light.
Sandrine Lévêque-Fort (ISMO): Time-based single molecule nanolocalisation for live cell imaging
Sandrine Lévêque-Fort has been awarded an ERC Advanced Grant for her project TimeNanoLive. While current approaches based on the localisation of individual fluorescent molecules allow for observations on the nanometre scale, the current localisation process of these molecules is slow and often limited to the observation of non-living cells. TimeNanoLive aims to revolutionise localisation by using a specific structured illumination to encode the 3D position of fluorescent molecules with increased spatial and temporal resolution.
Previous Advanced Grants
| name | project | year |
|---|---|---|
| Majed Chergui (FERMI) | X-ray spectroscopy of molecular chirality in solutions | 2023 |
| Morgan Mitchell (ICFO) | Field sensors with exceptional energy resolution | 2023 |
| Niek van Hulst (ICFO) | Photons and electrons on the move | 2023 |
| Nathalie Picqué (MPQ) | Precision measurements in molecules with frequency combs | 2022 |
| Olga Smirnova (MBI) | Ultrafast molecular chirality: twisting light to twist electrons on ultrafast time scale | 2022 |
| Anne L’Huillier (LLC) | Quantum Physics with Attosecond Pulses | 2019 |
| Gijs Wuite (LLAMS) | Mechanically mapped chromosomes | 2019 |
| Maciej Lewenstein (ICFO) | New applications of quantum simulators | 2018 |
| Theo Kitsopoulos (IESL-FORTH) | Slice imaging to understand catalysis | 2018 |
| Thomas Elsaesser (MBI) | Probing DNA and RNA charge dynamics | 2018 |
| Antonio Acín (ICFO) | Certification of quantum information systems | 2018 |
| Jens Limpert (HIJ) | Compact lasers as alternative to synchrotron facilities | 2018 |
| Julien Fuchs (LULI) | Extreme neutrons for nucleosynthesis | 2017 |
| Maria García-Parajo (ICFO) | Mechanical forces inside the cell membrane | 2017 |
| Javier García de Abajo (ICFO) | Free electrons as ultrafast nanoscale probes | 2017 |
| Jens Biegert (ICFO) | Real-time observation of transformations and transitions | 2017 |
| Erik Nibbering (MBI) | Soft-X-ray spectroscopy of acids and bases | 2017 |
| Erwin Peterman (LLAMS) | Fluorescence microscopy to study cilia in live worms | 2017 |
| Thomas Udem (MPQ) | High Resolution Extreme Ultraviolet Laser Spectroscopy | 2016 |
| Ignacio Cirac (MPQ) | Quantum Emitters in Non-conventional Baths | 2016 |
| Francesco Pavone (LENS) | Brain-to- brain communication based on full-optical recording and controlled stimulation | 2015 |
| Kjeld Eikema (LLAMS) | Ramsey-comb technique to perform precision laser spectroscop | 2015 |
| Fabien Quéré (SLIC/LIDYL) | Laser-plasma interactions with sophisticated structured laser beams | 2015 |
| Luis Silva (IST) | Simulate the extreme astrophysical conditions underlying the behaviour of pulsars | 2015 |
| Adrian Bachtold (ICFO) | Capabilities of nanotube resonators to study physical phenomena in unexplored regimes | 2015 |
| Niek van Hulst(ICFO) | LightNet - large-scale quantum effects for photosynthesis | 2014 |
| Marcus Aldén (LLC) | Towards a deepened understanding of combustion processes using advanced laser diagnostics | 2014 |
| Wim Ubachs (LLAMS) | NEWPHYS-MOLECULES | 2014 |
| Maciej Lewenstein(ICFO) | Classical Brownian motion of biological molecules on the surface of the cell membrane | 2013 |
| Victor Malka (LOA) | X-five, delivering bright X-ray beams at a repetition rate of 10 Hz | 2013 |
| Anne L’Huillier(LLC) | Measure photo-emission time delays for several atomic systems | 2013 |
| Costas Soukoulis (IESL-FORTH) | Development of photonic crystals, metamaterials and plasmonics | 2012 |
| Diederik Wiersma(LENS) | Photonic micro-robotics | 2011 |
| Giulio Cerullo (CUSBO) | Study DNA and proteins using ultrashort ultraviolet laser pulses | 2011 |
| Theodor Hänsch(MPQ) | New applications of frequency combs | 2010 |
| Prof. Rienk van Grondelle (LaserLaB Amsterdam) | Role chlorophyll-binding proteins play in determining the success of photosynthesis | 2010 |
| Dr. Luis Silva (IST) | Particle acceleration in relativistic shock waves driven in astrophysical scenarios | 2010 |
| Prof. Marcus Aldén(LLC) | Combustion processes in gas turbines and engines | 2009 |
| Prof. Thomas Elsaesser(MBI) | Properties of hydrogen bonds in molecular systems | 2009 |
| Prof. Massimo Inguscio(LENS) | Disorder in ultracold quantum gases | 2009 |
| Prof. Ferenc Krausz (MPQ) | 4D Imaging of Fundamental Processes on the Atomic and Subatomic Scales | 2009 |
| Prof. Niek van Hulst (ICFO) | Nano-Optical Antennas for Tunable Single Photon Super-Emitters | 2009 |
| Professor Anne L’Huillier (LLC) | Controlled sequences of pulses | 2008 |
| Victor Malka (LOA) | PARticle accelerators with Intense lasers for Science | 2008 |
| Prof. Dr. Mauro Nisoli (CUSBO) | Ultrafast electronic processes in helium atoms and deuterium molecules | 2008 |
| Villy Sundström (LLC) | New materials for solar cells | 2008 |