S
Salvatore Noe
Researcher at University of Trieste
Publications - 32
Citations - 1295
Salvatore Noe is an academic researcher from University of Trieste. The author has contributed to research in topics: Engineering & Vibration. The author has an hindex of 10, co-authored 26 publications receiving 1080 citations.
Papers
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Journal ArticleDOI
Highly coherent and stable pulses from the FERMI seeded free-electron laser in the extreme ultraviolet
Enrico Allaria,Roberto Appio,L. Badano,William A. Barletta,S. Bassanese,Sandra Biedron,A. O. Borga,E. Busetto,D. Castronovo,Paolo Cinquegrana,Stefano Cleva,Daniele Cocco,Max Cornacchia,Paolo Craievich,Ivan Cudin,Gerardo D'Auria,M. Dal Forno,Miltcho B. Danailov,R. De Monte,G. De Ninno,Paolo Delgiusto,Alexander Demidovich,S. Di Mitri,B. Diviacco,A. Fabris,R. Fabris,William M. Fawley,Mario Ferianis,Eugenio Ferrari,S. Ferry,L. Froehlich,P. Furlan,Giulio Gaio,Federico Gelmetti,Luca Giannessi,M. Giannini,R. Gobessi,R. Ivanov,E. Karantzoulis,Marco Lonza,Alberto Lutman,Alberto Lutman,Benoît Mahieu,Massimo Milloch,Stephen V. Milton,M. Musardo,Ivaylo Nikolov,Salvatore Noe,Fulvio Parmigiani,Giuseppe Penco,M. Petronio,L. Pivetta,M. Predonzani,F. Rossi,L. Rumiz,A. Salom,C. Scafuri,C. Serpico,Paolo Sigalotti,Simone Spampinati,Carlo Spezzani,M. Svandrlik,C. Svetina,S. Tazzari,M. Trovo,R. Umer,A. Vascotto,Marco Veronese,Roberto Visintini,M. Zaccaria,D. Zangrando,Marco Zangrando +71 more
TL;DR: In this paper, the FERMI free-electron laser operating in the high-gain harmonic generation regime was demonstrated, allowing high stability, transverse and longitudinal coherence and polarization control.
Journal ArticleDOI
Prototyping and Validation of MEMS Accelerometers for Structural Health Monitoring—The Case Study of the Pietratagliata Cable-Stayed Bridge
TL;DR: Dynamic results summarised in the paper demonstrate the high capability of MEMS accelerometers, with evidence of rather stable and reliable predictions, and suggest their feasibility and potential for SHM purposes.
Journal ArticleDOI
Component Modeling of Partially Restrained Composite Joints under Cyclic and Dynamic Loading
TL;DR: In this article, a mechanical modeling approach for the simulation of partially restrained (PR, or semirigid) steel and composite connections subjected to any loading regime is described, and verification studies utilizing this approach are presented.
FERMI@Elettra Conceptual Design Report
C. J. Bocchetta,A. Abrami,Enrico Allaria,I. Andrian,D. Bacescu,L. Badano,L. Banchi,D. Bulfone,C. Bontoiu,R. Bracco,F. Cargnello,K. Casarin,Max Cornacchia,Paolo Craievich,D. Cocco,M. B. Danailov,Gerardo D'Auria,Alexander Demidovich,G. De Ninno,S. Di Mitri,Bruno Diviacco,Mario Ferianis,A. Galimberti,A. Gambitta,M. Giannini,F. Iazzourene,E. Karantzoulis,D. La Civita,G. Loda,Marco Lonza,Claudio Masciovecchio,F. Mazzolini,D. Morelli,M. Musardo,Salvatore Noe,C. Pappas,Giuseppe Penco,Kevin C. Prince,L. Rumiz,Simone Spampinati,M. Stefanutti,L. Tosi,Giuliana Tromba,M. Trovo,A. Vascotto,Marco Veronese,Ding-Xiong Wang,M. A. Weeks,D. Zangrando +48 more
Journal ArticleDOI
VUV and X-ray free-electron lasers: The technology and its scientific promise
William A. Barletta,C. Rizzuto,C. J. Bocchetta,A. Abrami,E. Aliaria,I. Andrian,D. Bacescu,L. Badano,L. Banchi,D. Bulfone,C. Bontoiu,R. Braceo,F. Cargnello,K. Casarin,Paolo Craievich,D. Cocco,M. B. Danailov,Gerardo D'Auria,Alexander Demidovich,G. DeNinno,S. Di Mitri,Bruno Diviacco,Mario Ferianis,A. Galimberti,A. Gambitta,M. Giannini,F. Iazzourene,E. Karantzoulis,D. La Civita,G. Loda,Marco Lonza,Claudio Masciovecchio,F. Mazzolini,D. Morelli,M. Musardo,Salvatore Noe,C. Pappas,Fulvio Parmigiani,Giuseppe Penco,Kevin C. Prince,L. Rumiz,S. Spampanati,M. Stefanutti,M. Svandrlik,L. Tosi,Giuliana Tromba,M. Trovo,A. Vascotto,Roberto Visintini,A. Weeks,D. Zagrando,Marco Zangrando,M. Nadalin,G. Quondam,J. Corlett,Lawrence Doolittle,William M. Fawley,Steven Lidia,Gregory Penn,Alex Ratti,John Staples,Russell Wilcox,Alexander Zholents,Max Cornacchia,P. Emma,Z. Huang,J. Wu,S. Tazzari,W. A. Barletta,William Graves,Fatih Omer Ilday,Franz X. Kaertner,D. Wang,T. Zwart,Rodolfo Bonifacio,Michael Borland,Sandra Biedron,Stephen V. Milton,S. De Silvestri +78 more
TL;DR: Free-Electron Lasers (FELs) can produce light pulses with peak brilliance as much as ten orders of magnitude higher than the pulses generated in present third-generation synchrotron light sources and with photon energies ranging from the VUV to the hard X-rays as discussed by the authors.