Particle Sources (electrons, nucleons, multicharged ions etc.)
Studying and optimizing the generation of particle sources (such as electrons, protons, neutrons, multicharged ions, or positrons) resulting from laser-matter interaction.
CELIA (Bordeaux, France)
CELIA is a centre of excellence in lasers and their interaction with matter. Research is performed on laser development, ultra-short intense laser matter interactions and applications, from the physics of hot dense plasmas to laser-molecule or laser-atom interactions. 3 state-of-the art laser drivers based on Ti:sapphire and Yb:fiber feed 9 fully-equipped end-stations including secondary XUV and X-ray sources.
CLF (Oxfordshire, UK)
The CLF offers access to five unique laser facilities for multi-disciplinary research. VULCAN operates two target areas: a high energy 1 PW capability and a synchronised 100 TW & 2 kJ/ns capability, both with very flexible configurations for research in high energy density science. GEMINI offers a unique synchronised dual beam capability with 0.5 PW beams operating at one shot every 20 seconds, focussing on plasma accelerators and the generation and application of secondary sources. ARTEMIS has three beamlines utilising HHG, at 1 kHz/800 nm/200 eV and 100 kHz/1700 nm/1 keV (due online shortly), with a wide suite of end stations for pump-probe experiments in ultrafast XUV science. ULTRA is an ultrafast pump-probe laser spectroscopy facility, combining laser, detector and sample manipulation technology to probe ultrafast molecular dynamics. OCTOPUS: a suite of imaging and laser trapping capabilities, such as super-resolution (including cryogenic), confocal, and light sheet microscopy, single molecule imaging/tracking, and focused ion beam SEM.
CLPU (Salamanca, Spain)
CLPU operates VEGA, a multi Terawatt laser system composed by three independent and synchronised 30 fs long Ti:Sa based-laser pulses: VEGA-3 of 1 PW (at 1Hz), VEGA- 2 of 200 TW and VEGA-1 of 20 TW (both up to 10 Hz). Besides its architecture, the uniqueness of VEGA is that it is a petawatt-class laser system of high-repetition rate.
GSI (Darmstadt, Germany)
GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt, Germany is an accelerator laboratory hosting PHELIX (Petawatt High-Energy Laser for Ion eXperiments), both for combined laser/accelerator and standalone laser experiments. The PHELIX laser at GSI presently permits two types of operation: Pulses of a duration between 0.5 ns and 20 ns with a widely variable pulse shape and energies up to 1 kJ, and 0.5 ps short-pulse petawatt-class operation. One high-energy and one low-energy laser stand-alone target area are available, as well as a target area for combined laser / linear accelerator ion beam experiments with a dedicated 100 TW proton acceleration beamline. A new target area dedicated to combined laser / synchrotron ion beam experiments will be available by 2021.
HIJ (Jena, Germany)
The Few-Cycle-Laser laboratory is operating various laser sources for the investigation of strong field and attosecond laser physics. Ultrashort laser pulses in different spectral regions are available. POLARIS is an all-diode pumped laser system operated at HI-Jena and FSU Jena, currently reaching the highest peak power worldwide (170 TW on target) for such a system. Delivering <100-fs pulses at a rep-rate of 1/50 Hz with up to 17 J energy and extreme temporal contrast, POLARIS is an indispensable tool for our research program on laser-driven particle acceleration.
HILASE (Dolni Břežany, Czech Republic)
HiLASE operates two diode-pumped Yb:YAG solid state laser facilities: Bivoj, delivering over 1 kW of average power in 105 J, 10 ns pulses at 10 Hz, for laser shock peening and ion generation, and Perla, a high average power laser platform generating < 2 ps pulses in broad spectral region from 206 nm to 3 microns for laser processing.
HZDR (Dresden, Germany)
Helmholtz-Zentrum Dresden Rossendorf, Germany
LACUS (Lausanne, Switzerland)
LACUS offers various instruments for the investigation of matter (molecules, solutions, proteins, solids and nanosystems) in out-of-equilibrium conditions. Our instruments cover a broad range of observables, ranging from spectroscopic probes in the UV-visible range to electron diffraction and imaging in various sample environments, and covering a temporal range from femtoseconds to nanoseconds.
LIDYL (Saclay, France)
Located in Saclay, France, LIDYL is a fundamental research laboratory whose activities focus on radiation-matter interaction and applications. LIDYL's research programs cover the study of both electronic and nuclear dynamics, in the gas and condensed phases, from the simplest atomic and molecular systems to the most complex ones (biomolecules and nano-objects) and to laser-created plasmas using high-intensity fs lasers.
LLAMS (Amsterdam, Netherlands)
LLAMS develops new techniques and tools, including ultra-precise spectroscopy, to study the interaction of (laser) light and matter. Looking at systems ranging from atoms and molecules to living cells and tissues, the focus is on advancing understanding of both molecular physics and living systems.
LLC (Lund, Sweden)
Located in Lund, in the south of Sweden, the LLC is the largest unit in the Scandinavian countries in the field of lasers and their use in spectroscopy, diagnostics and analysis. Its research programme ranges from atomic physics and attoscience to medical diagnostics and treatment, from fundamental quantum information and single-molecule spectroscopy to applied laser diagnostics of industrial processes.
LOA (Palaiseau, France)
LOA has played a pioneering role in the development of ultrafast laser-matter science at high intensities and related new concept of ultrafast lasers and secondary sources (electrons, protons, EUV, X-ray and gamma-rays, THz). LOA was one of the founders of the LASERLAB community. LOA develops cutting-edge advanced programs to answer scientific and societal challenges.
LULI (Coordinator, Palaiseau, France)
LULI operates two multi-beam laser facilities: APOLLON, a Ti:Sapphire shot-per-minute facility offering an exceptional multi-PW peak power, and LULI2000, a highly energetic Nd-glass laser. APOLLON allows exploring high-field physics and generating extreme particle and radiation beams for applications. LULI2000 couples high-energy and high-power laser pulses onto a target together with external high-amplitude pulsed magnetic fields for high-energy-density physics investigation.
LP3 (Marseille, France)
LP3 is a multidisciplinary academic laboratory of excellence. Its major activities focus on: i) generation of secondary sources such as hard X-ray by laser-induced plasma technology ii) fundamentals and technological research of laser-matter interactions and iii) development of laser-based processes. The main applications are related to laser structuration and fabrication with major outcomes in photonics, microelectronics, medicine and laser-based diagnostics.
PALS (Prague, Czech Republic)
PALS operates a kJ-class photodissociation iodine laser system at a wavelength of 1315 nm and a pulse duration of 350 ps. This main laser beam is precisely synchronized with a femtosecond Ti:sapphire laser system (up to 1 J, 40 fs) used mainly as a probe beam for plasma parameter measurements.
ULF-FORTH (Heraklion, Greece)
The Ultraviolet Laser Facility (ULF-FORTH) is a multi-disciplinary laboratory dedicated to laser-based science. It is the major laser research facility in Greece. ULF-FORTH combines state-of-the-art experimental facilities with a rich spectrum of research activities and expertise including Atomic and Optical physics, Molecular physics and Chemical dynamics, laser-materials interactions, laser applications and techniques in Biomedicine and in Cultural Heritage.