LASERLAB-EUROPE
https://www.laserlab-europe.eu
LP3 (Marseille, France)
https://www.laserlab-europe.eu/about-us/partners/lp3
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.No publisherAtomic and Molecular PhysicsCondensed Matter PhysicsPhase Transition PhysicsSurface SciencePlasma PhysicsWarm Dense MatterParticlesRadiationPhysical Chemistry and Chemical PhysicsOrganic ChemistryInorganic ChemistryPlasma OpticsNovel MaterialsMaterials Under RadiationImaging for Life SciencesIn-situ Imaging for MachiningOther Imaging and AnalysisAdvanced Laser DiagnosticsPlasma DiagnosticsLaser ManufacturingTissue EngineeringOptoelectronicsNanoelectronicsOrganic ElectronicsOther NanobiotechnologyLight Therapy and DisinfectionMedical ImagingPageLENS (Florence, Italy)
https://www.laserlab-europe.eu/about-us/partners/lens
LENS, the European Laboratory for Non-Linear Spectroscopy, is a center of excellence at the University of Florence. Research interests include photonics, biophysics, chemistry and atomic physics. Three different main research areas (BIOPHOTONICS, PHOTONIC MATERIALS, ATOMIC PHYSICS) and more than twenty research topics, corresponding to active laboratories, are presently running.No publisherAtomic and Molecular PhysicsCondensed Matter PhysicsSoft Matter PhysicsPhase Transition PhysicsHarmonicsNonlinear and Quantum OpticsRadiationQuantum PhysicsPhysical Chemistry and Chemical PhysicsQuantum ChemistrySolvation ChemistryOrganic ChemistryInorganic ChemistryCoordination ChemistryAstrochemistryCellular and Molecular BiologyBiophysicsAmplification and Compression TechniquesInnovative LasingNovel MaterialsMaterials Under RadiationImaging for Life SciencesAdvanced Laser DiagnosticsLaser ManufacturingTissue EngineeringOptoelectronicsOther NanobiotechnologyQuantum InformationCancer ResearchLight Therapy and DisinfectionMedical ImagingSolar EnergyGeosciencePageFELIX (Nijmegen, Netherlands)
https://www.laserlab-europe.eu/about-us/partners/felix
Stichting Katholieke Universiteit, Radboud University Nijmegen, NetherlandsNo publisherAtomic and Molecular PhysicsCondensed Matter PhysicsSoft Matter PhysicsPhase Transition PhysicsLaboratory Astrophysics & PlanetologyQuantum PhysicsChemical PhysicsPhysical ChemistryOrganic ChemistryFullerene ChemistryCombustion and CatalysisInorganic ChemistryCoordination ChemistryAnalytic ChemistryAstrochemistryBiophysicsMetabolomicsFood ScienceNovel MaterialsOptoelectronicsSpintronicsSolar EnergyPageCLL (Coimbra, Portugal)
https://www.laserlab-europe.eu/about-us/partners/cll
CLL aims to promote and support the use of lasers in the study of the interactions between radiation and matter at the molecular level. Specialized on photochemical, photophysical and spectroscopic studies, from the infrared through the ultraviolet, covering timescales from femtoseconds at room temperatures to ultra slow processes at cryogenic temperatures.No publisherNuclear PhysicsSurface PhysicsChemical PhysicsPhysical ChemistrySurface ChemistryOrganic ChemistryFullerene ChemistryInorganic ChemistryCoordination ChemistryCellular and Molecular BiologyBiophysicsNovel MaterialsImaging for Life SciencesCancer ResearchImmunologyLight Therapy and DisinfectionMedical ImagingPharmacologySolar EnergyCultural Heritage and Historical PreservationPageCLF (Oxfordshire, UK)
https://www.laserlab-europe.eu/about-us/partners/clf
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.No publisherAtomic and Molecular PhysicsNuclear PhysicsCondensed Matter PhysicsPhase Transition PhysicsSurface PhysicsPlasma PhysicsWarm Dense MatterLaboratory Astrophysics & PlanetologyHarmonicsParticlesRadiationEMP TechniquesNonlinear and Quantum OpticsQuantum PhysicsChemical PhysicsPhysical ChemistrySolvation ChemistryOrganic ChemistryFullerene ChemistryStereochemistryCombustion and CatalysisInorganic ChemistryCoordination ChemistryAnalytic ChemistryCellular and Molecular BiologyBiophysicsStructural BiologyMetabolomicsBotanyNatural Light HarvestingFood SciencePlasma OpticsAmplification and Compression TechniquesNovel MaterialsMaterials Under RadiationImaging for Life SciencesOther Imaging and AnalysisNovel DetectorsAdvanced Laser DiagnosticsLaser ManufacturingOptoelectronicsOrganic ElectronicsEUV LithographyCancer ResearchImmunologyLight Therapy and DisinfectionParasitologyMedical ImagingPharmacologyLaser FusionSolar EnergyEcologyCultural Heritage and Historical PreservationPage