Reference Manager Since ELI-NP will be a user-facility, a long-term Astrophysics programme is under development by the forming international user community.Work has been supported by the Extreme Light Infrastructure Nuclear Physics (ELI-NP) Phase II, a project co-financed by the Romanian Government and the European Union through the European Regional Development Fund and the Competitiveness Operational Programme (1/07.07.2016, COP, ID 1334).Over 10 million scientific documents at your fingertips „Suntem pregătiţi, aşa cum am subliniat constant, să participăm la ELI-ERIC şi, de asemenea, să îl găzduim, aşa cum a fost stabilit în decembrie 2018 de … This will be accomplished and implemented through research projects covering the interaction of light with matter at intensities that are 10 times higher than the values that are currently achievable.
Primele rezultate legate de acest studiu au fost publicate în urmă cu cinci ani în revista Nature de către o echipă a Institutului pentru Fizică Nucleară al Universității Tehnice din Darmstadt, Germania, iar acum acestea au fost confirmate de echipa internațională de cercetători majoritatea aparținând ELI-NP, echipă coordonată de fizicianul suedez Pär-Anders Söderström, cercetător la ELI-NP și prim autor al … Budil, K.S., Gold, D.M., Estabrook, K.G., Remington, B.A., Kane, J., et al.
: Development of a radiative-hydrodynamics testbed using the Petawatt laser facility. The new facility is in the implementation phase – the laser beams are to be commissioned at full power in the experimental areas towards the end of 2019, when the vacuum systems in these areas will also be installed. ELI Beamlines is designed as a high-energy and high-repetitive pillar of the European ELI (Extreme Light Infrastructure) project. Rev.
Three of them are presently being implemented in the The Extreme Light Infrastructure project started as a bottom-up initiative by the European scientific laser community and the network of large national laser facilities, LASERLAB-EUROPE, in the context of the preparation of the first European ESFRI Roadmap in 2005. Romanian Reports in Physics Homma, K., Tesileanu, O., D’Alessi, L., Hasebe, T., Ilderton, A., et al. History. EUR 117.69
We present here the features of the γ-ray beam source, the emerging ELI-NP experimental program …
: Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field. : Dynamics and structure of self-generated magnetics fields on solids following high contrast, high intensity laser irradiation.
Pol. The main objective of the project is, in accordance with the ELI White Paper [1], to create a high-energy beam device that can develop and utilize ultra-short pulses of high energy particles and radiation stemming from relativistic and ultrarelativistic interactions. The unique combination of the outstanding laser pulses with the pioneering secondary sources technologies will open up new opportunities in experimental research. The Czech … The Extreme Light Infrastructure project started as a bottom-up initiative by the European scientific laser …
This places ELI-ALPS as one of the leading lights in ultrafast physical processes as well as a world-class centre for generating outstanding biological, chemical, medical and materials science results. ELI-ALPS offers more than just the use of a novel class of state-of-the-art laser systems. Located in Szeged, South-east of Hungary the main objective of ELI-ALPS, the attosecond pillar of the Extreme Light Infrastructure, in accordance with the ELI White Paper is 1) to generate X-UV and X-ray femtosecond and attosecond pulses, for temporal investigation at the attosecond scale of electron dynamics in atoms, molecules, plasmas and solids; 2) source developments (towards high average power, high peak intensity pulses). : Future Prospects of Nuclear Reactions Induced by Gamma-Ray Beams at ELI-NP. Due to the unprecedented intensity regimes the 10 PW lasers at ELI-NP can reach, and also to the combination of beams that can be synchronized and made available at the same time, new experiments relevant for the extreme conditions of … The ELI Nuclear Physics (ELI-NP) facility near Bucharest has two main components. Due to the unprecedented intensity regimes the 10 PW lasers at ELI-NP can reach, and also to the combination of beams that can be synchronized and made available at the same time, new experiments relevant for the extreme conditions of astrophysics can be imagined. Please update this article to reflect recent events or newly available information. Our international team, led by Julien Fuchs (LULI, France) and Sophia Chen (ELI-NP), carried out an experiment at Lawrence Livermore National Laboratory (USA) using two high-intensity short pulse laser beams: a first beam drives a broadband proton beam from a first target to probe the magnetic fields created in a second target irradiated by a second beam. Reference Manager Moreover, ELI-NP will feature a high-intensity, tunable, narrow bandwidth gamma beam system, that can be used for studies of nuclear astrophysics and can also be used in experiments synchronized with the high power laser beams. Phys. EPL Gales, S., Tanaka, K.A., Balabanski, D., Negoita, F., Stutman, D., et al. They are expected to support the ultra-high science science, ie to achieve an ultra-relativistic regime. RefWorks
: Gamma ray beams for Nuclear Astrophysics: first results of tests and simulations of the ELISSA array. EndNote Physics of Plasmas Ciardi, A., Vinci, T., Fuchs, J., Albertazzi, B., Riconda, C., Pé pin, and Portugall, O.:Astrophysics of Magnetically Collimated Jets Generated from Laser-Produced Plasmas.