Bibliographies thématiques / INFN-LNF

Littérature scientifique sur le sujet « INFN-LNF »

Auteur : Grafiati

Publié le 11 mars 2023

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Articles de revues sur le sujet "INFN-LNF"

Fiore, S. « The PADME experiment at INFN LNF ». Journal of Physics : Conference Series 770 (novembre 2016) : 012039. http://dx.doi.org/10.1088/1742-6596/770/1/012039.

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Curceanu, Catalina, Carlo Guaraldo, Diana Sirghi, Aidin Amirkhani, Ata Baniahmad, Massimiliano Bazzi, Giovanni Bellotti et al. « Kaonic Atoms to Investigate Global Symmetry Breaking ». Symmetry 12, n^o 4 (4 avril 2020) : 547. http://dx.doi.org/10.3390/sym12040547.

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Kaonic atoms measure the antikaon-nucleus interaction at almost zero relative energy, allowing one to determine basic low-energy quantum chromodynamics (QCD) quantities, namely, the antikaon-nucleon ( K ¯ N) scattering lengths. The latter are important for extracting the sigma terms which are built on the symmetry breaking part of the Hamiltonian, thereby providing a measure of chiral and SU(3) symmetries breaking. After discussing the sigma terms and their relations to the kaonic atoms, we describe the most precise measurement in the literature of kaonic hydrogen, performed at LNF-INFN by the SIDDHARTA experiment. Kaonic deuterium is still to be measured, and two experiments are planned. The first, SIDDHARTA-2 at LNF-INFN was installed on DA Φ NE in spring 2019 and will collect data in 2020. The second, E57 at J-PARC, will become operative in 2021.

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DABAGOV, S. B., M. FERRARIO, L. PALUMBO et L. SERAFINI. « CHANNELING PROJECTS AT LNF : FROM CRYSTAL UNDULATORS TO CAPILLARY WAVEGUIDES ». International Journal of Modern Physics A 22, n^o 23 (20 septembre 2007) : 4280–309. http://dx.doi.org/10.1142/s0217751x07037834.

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Frascati's National Laboratories (LNF INFN) are well known in the world for pioneering research in the particle interaction and synchrotron radiation physics fields. Good experience in designing accelerators, storage rings and beamlines for synchrotron radiation allows presently LNF to be in the frontier for the construction of new X-ray generation sources. This report is an introduction to new research activity "Coherent Scattering Phenomena for Radiations in Solids" started in Frascati within the approved projects SPARC, SPARX and PLASMON-X. The main purpose of the project is to develop research area for studying the channeling phenomena of charged and neutral particles in periodic solid structures.

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Bellucci, Stefano. « Nanoscience and Nanotechnology, Proceedings of the INFN-LNF 2018 Conference ». Condensed Matter 4, n^o 4 (13 novembre 2019) : 88. http://dx.doi.org/10.3390/condmat4040088.

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The NEXT Nanotechnology group at INFN-Laboratori Nazionali di Frascati (LNF) has organized, since the year 2000, a yearly series of international meetings in the area of nanotechnology. The 2018 conference has been devoted to recent developments in nanoscience and their manifold technological applications. These consisted of a number of tutorial/keynote lectures, as well as research talks presenting frontier nanoscience research developments and innovative nanotechnologies in the areas of biology, medicine, aerospace, optoelectronics, energy, materials and characterizations, low-dimensional nanostructures and devices. Selected, original papers based on the 2018 conference talks and related discussions have been published, after a careful refereeing process, in the MDPI journal Condensed Matter, and are currently included in the present dedicated issue.

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Curceanu, Catalina, Aidin Amirkhani, Ata Baniahmad, Massimiliano Bazzi, Giovanni Bellotti, Carolina Berucci, Damir Bosnar et al. « X-ray Detectors for Kaonic Atoms Research at DAΦNE ». Condensed Matter 4, n^o 2 (25 avril 2019) : 42. http://dx.doi.org/10.3390/condmat4020042.

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This article presents the kaonic atom studies performed at the INFN National Laboratory of Frascati (Laboratori Nazionali di Frascati dell’INFN, LNF-INFN) since the opening of this field of research at the DA Φ NE collider in early 2000. Significant achievements have been obtained by the DA Φ NE Exotic Atom Research (DEAR) and Silicon Drift Detector for Hadronic Atom Research by Timing Applications (SIDDHARTA) experiments on kaonic hydrogen, which have required the development of novel X-ray detectors. The 2019 installation of the new SIDDHARTA-2 experiment to measure kaonic deuterium for the first time has been made possible by further technological advances in X-ray detection.

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Bedogni, R., A. Esposito, G. Lovestam, M. J. García et M. Virgolici. « The new PADC based fast neutron dosimetry system of the INFN—LNF ». Radiation Measurements 43 (août 2008) : S491—S494. http://dx.doi.org/10.1016/j.radmeas.2008.03.058.

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Wang, Sheng Hao, Augusto Marcelli, Daniele Di Gioacchino et Zi Yu Wu. « The AC Multi-Harmonic Magnetic Susceptibility Measurement Setup at the LNF-INFN ». Applied Mechanics and Materials 568-570 (juin 2014) : 82–89. http://dx.doi.org/10.4028/www.scientific.net/amm.568-570.82.

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The AC magnetic susceptibility is a fundamental method in materials science, which allows to probe the dynamic magnetic response of magnetic materials and superconductors. The LAMPS laboratory at the Laboratori Nazionali di Frascati of the INFN hosts an AC multi-harmonic magnetometer that allows performing experiments with an AC magnetic field ranging from 0.1 to 20 Gauss and in the frequency range from 17 to 2070 Hz. A DC magnetic field from 0 to 8 T produced by a superconducting magnet can be applied, while data may be collected in the temperature range 4.2-300 K using a liquid He cryostat under different temperature cycles setups. The first seven AC magnetic multi-harmonic susceptibility components can be measured with a magnetic sensitivity of 1x10-6 emu and a temperature precision of 0.01 K. Here we will describe in detail about schematic of the magnetometer, special attention will be dedicated to the instruments control, data acquisition framework and the user-friendly LabVIEW-based software platform.

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Behtouei, M., B. Spataro, L. Faillace, A. Leggieri, F. Di Paolo, F. Marrese, L. Valletti et al. « Studies of a Ka-band high power klystron amplifier at INFN-LNF ». Journal of Physics : Conference Series 2420, n^o 1 (1 janvier 2023) : 012031. http://dx.doi.org/10.1088/1742-6596/2420/1/012031.

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Abstract In the framework of the Compact Light XLS project [1], a Ka-band linearizer with electric field ranging from 100 to 150 MV/m is requested [2, 3, 4]. In order to feed this structure, a proper Ka-band high power klystron amplifier with a high efficiency is needed. This paper reports a possible solution for a klystron amplifier operating on the TM010 mode at 36 GHz, the third harmonic of the 12 GHz linac frequency, with an efficiency of 44% and 10.6 MW radiofrequency output power. We discuss also here the high-power DC gun with the related magnetic focusing system, the RF beam dynamics and finally the multiphysics analysis of a high-power microwave window for a Ka-band klystron providing 16 MW of peak power.

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Gianotti, Paola. « Status and prospects for the PADME experiment at LNF ». EPJ Web of Conferences 166 (2018) : 00009. http://dx.doi.org/10.1051/epjconf/201816600009.

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The PADME collaboration aims to search for signals of a light dark photon A′ using the beam of the LNF LINAC. The experiment, approved by INFN at the end of 2015, foresees to detect A′, produced in the annihilation of positrons on a thin fixed target, by searching for missing mass signals. The detector construction is ongoing and should be completed within the end of 2017 in order to allow the collection of about 1013 positrons on target which are necessary to get a 10−3 sensitivity on the mixing parameter ε up to a dark photon mass of 23.7 MeV/c2.

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Bellucci, Stefano. « Selected Peer-Reviewed Articles from the INFN-LNF Conference on Nanoscience and Nanotechnology ». Nanoscience and Nanotechnology Letters 3, n^o 6 (1 novembre 2011) : 815. http://dx.doi.org/10.1166/nnl.2011.1241.

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Thèses sur le sujet "INFN-LNF"

Ciarma, Andrea. « Low Emittance Muon Accelerator LEMMA ». Doctoral thesis, 2022. https://www.openaccessrepository.it/record/75562.

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The conventional way of producing muons is from the decay of pions or kaons obtained by proton interaction with a target. The Low EMittance Muon Accelerator (LEMMA) project proposes a novel approach for the muon source, where muon pairs are produced directly from the annihilation of a positron beam with the atomic electrons in a target. This positron-driven source is capable of producing low emittance muon beams, in principle removing the necessity of cooling for a muon collider. The main goal of this thesis is to explore the possibilities available in the LEMMA design performing start-to-end simulations of the production and accumulation process in order to optimise the lattice of the muon accumulator rings, target properties and positron beam energy.

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Livres sur le sujet "INFN-LNF"

Nanoscience and Nanotechnology, Proceedings of the INFN-LNF 2018 Conference. MDPI, 2020. http://dx.doi.org/10.3390/books978-3-03921-969-8.

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Chapitres de livres sur le sujet "INFN-LNF"

Angelucci, Marco, Antonella Balerna, Roberto Cimino, Mariangela Cestelli-Guidi, Antonio Grilli, Marco Pietropaoli, Agostino Raco, Vittorio Sciarra, Vinicio Tullio et Giacomo Viviani. « DA$${\varPhi }$$NE-Light : The INFN-LNF Synchrotron Radiation Facility ». Dans Synchrotron Radiation Science and Applications, 33–43. Cham : Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-72005-6_3.

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Actes de conférences sur le sujet "INFN-LNF"

« DAΦNE upgrade at LNF-INFN ». Dans Exotic atoms and related topics 2005. Wien : Verlag der Österreichischen Akademie der Wissenschaften, 2009. http://dx.doi.org/10.1553/exa05s423.

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Kozhuharov, Venelin. « The PADME experiment at LNF-INFN ». Dans 10th Jubilee International Conference of the Balkan Physical Union. Author(s), 2019. http://dx.doi.org/10.1063/1.5091209.

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Arnold, D., G. Bellettini, A. Boni, C. Cantone, I. Ciufolini, D. G. Currie, S. DellAgnello et al. « The INFN-LNF Space Climatic Facility ». Dans Proceedings of the 10th Conference. WORLD SCIENTIFIC, 2008. http://dx.doi.org/10.1142/9789812819093_0140.

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Balerna, A., M. Cestelli-Guidi, R. Cimino, M. Commisso, A. De Sio, L. Gambicorti, A. Grilli et al. « DAFNE-Light INFN-LNF Synchrotron Radiation Facility ». Dans SRI 2009, 10TH INTERNATIONAL CONFERENCE ON RADIATION INSTRUMENTATION. AIP, 2010. http://dx.doi.org/10.1063/1.3463191.

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Bertelli, Susanna. « The INFN-LNF Bruno Touschek Visitor Centre : a hub for public engagement activities ». Dans 41st International Conference on High Energy physics. Trieste, Italy : Sissa Medialab, 2022. http://dx.doi.org/10.22323/1.414.0393.

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Gambicorti, L., E. Pace et A. De Sio. « SOURCE, a VUV-UV synchrotron radiation beamline for space optics tests at the DAΦNE-light INFN-LNF ». Dans International Conference on Space Optics 2010, sous la direction de Errico Armandillo, Bruno Cugny et Nikos Karafolas. SPIE, 2019. http://dx.doi.org/10.1117/12.2552618.

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DABAGOV, S. B., M. FERRARIO, L. PALUMBO et L. SERAFINI. « CHANNELING PROJECTS AT LNF : FROM CRYSTAL UNDULATORS TO CAPILLARY WAVEGUIDES ». Dans Proceedings of the 46th Workshop of the INFN ELOISATRON Project. WORLD SCIENTIFIC, 2007. http://dx.doi.org/10.1142/9789812772176_0047.

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