12/6/2023 0 Comments Metamate minneapolisThe facility – besides the regular scientific staff - will provide accessible research infrastructure for the international scientific community user groups from all around the world. The ground-breaking laser systems together with the subsequent outstanding secondary sources generate the highest possible peak power at the highest possible repetition rate in a spectral range from the E-UV through visible and near infrared to THz. Thus a uniquely broad spectral range of the highest power and shortest light pulses becomes available for the study of dynamic processes on the attosecond time scale in atoms, molecules, condensed matter and plasmas. Any light pulse source can act as a research tool by itself or, with femtosecond synchronization, in combination with any other of the sources. This goal is realized by the combination of specialized primary lasers which drive nonlinear frequency conversion and acceleration processes in more than twelve different secondary sources. The Extreme Light Infrastructure – Attosecond Light Pulse Source (ELI-ALPS), the Hungarian pillar of ELI, is the first of its kind that operates by the principle of a user facility, supporting laser based fundamental and applied researches in physical, biological, chemical, medical and materials sciences at extreme short time scales. A new laser disc liquid cooling technology enables repetition rates of 1 shot/minute allowing a much higher data acquisition for this kind of experiments.įurthermore we will report on the first experiments and the future experimental plans as well as on the prospects for user operation. A second oscillator allows shaped pulse ns-operation at kJ level or future combination of 1 PW pulses and kJ shaped ns-pulses for advanced WDM or fusion experiments in the E3 area. The Nd:Glass laser Aton provides 1.5 kJ pulses and is currently being compressed to 10 PW in a large compressor tank. Both areas are fully equipped with target chambers and focusing optics for experimental operation and user assisted commissioning. The HAPLS (sub-30fs, Ti: Sapphire) laser pumped by a high-average power frequency converted DPSSL is currently delivering 500 TW, 3.3 Hz pulses via a stable vacuum beam transport system with a pointing stability around 1rad to the experimental areas for plasma physics experiments (E3) and ion acceleration (E4) with the ELIMAIA station. The Allegra laser enters the experimental area E1 with a number of end-stations for user experiments. Short pulse 5ps-CPA thin disc lasers pump a series of OPCPA crystals ensuring a high contrast output. This includes the 1 kHz, 15fs, 50mJ, Allegra laser based on OPCPA-technology. We are reviewing the high-average and high peak-power fs-laser sources and experimental areas currently in operation and preparation for user operation. We cordially invite candidates interested in organization of sessions on recent developments in fabrication technologies, characterization methods and theoretical approaches to artificial electromagnetic materials. Invited talks will be delivered by world’s top experts in the field of metamaterials. The Prague conference provides a meeting platform for university researchers and industry professionals worldwide.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |