L. Giannessi
Elettra Sincrotrone Trieste
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Publication
Featured researches published by L. Giannessi.
Nature Photonics | 2012
E. Allaria; Roberto Appio; L.Badano; William A. Barletta; S.Bassanese; S. G. Biedron; A.O.Borga; E.Busetto; D. Castronovo; Paolo Cinquegrana; S. Cleva; D.Cocco; M.Cornacchia; P. Craievich; Ivan Cudin; G.D'Auria; M.Dal Forno; M.B. Danailov; R.De Monte; G.De Ninno; Paolo Delgiusto; Alexander Demidovich; S. Di Mitri; B. Diviacco; Alessandro Fabris; Riccardo Fabris; William M. Fawley; Mario Ferianis; Eugenio Ferrari; S.Ferry
Researchers demonstrate the FERMI free-electron laser operating in the high-gain harmonic generation regime, allowing high stability, transverse and longitudinal coherence and polarization control.
Nature Communications | 2013
E. Allaria; Filippo Bencivenga; Roberto Borghes; Flavio Capotondi; D. Castronovo; P. Charalambous; Paolo Cinquegrana; M.B. Danailov; G. De Ninno; Alexander Demidovich; S. Di Mitri; B. Diviacco; D. Fausti; William M. Fawley; Eugenio Ferrari; L. Froehlich; D. Gauthier; Alessandro Gessini; L. Giannessi; R. Ivanov; M. Kiskinova; Gabor Kurdi; B. Mahieu; N. Mahne; I. Nikolov; C. Masciovecchio; Emanuele Pedersoli; G. Penco; Lorenzo Raimondi; C. Serpico
Exploring the dynamics of matter driven to extreme non-equilibrium states by an intense ultrashort X-ray pulse is becoming reality, thanks to the advent of free-electron laser technology that allows development of different schemes for probing the response at variable time delay with a second pulse. Here we report the generation of two-colour extreme ultraviolet pulses of controlled wavelengths, intensity and timing by seeding of high-gain harmonic generation free-electron laser with multiple independent laser pulses. The potential of this new scheme is demonstrated by the time evolution of a titanium-grating diffraction pattern, tuning the two coherent pulses to the titanium M-resonance and varying their intensities. This reveals that an intense pulse induces abrupt pattern changes on a time scale shorter than hydrodynamic expansion and ablation. This result exemplifies the essential capabilities of the jitter-free multiple-colour free-electron laser pulse sequences to study evolving states of matter with element sensitivity.
Nature Photonics | 2016
Kevin C. Prince; E. Allaria; C. Callegari; Riccardo Cucini; G. De Ninno; S. Di Mitri; B. Diviacco; Enrico Ferrari; P. Finetti; D. Gauthier; L. Giannessi; N. Mahne; G. Penco; Oksana Plekan; Lorenzo Raimondi; P. Rebernik; Eléonore Roussel; Cristian Svetina; M. Trovo; M. Zangrando; M. Negro; Paolo A. Carpeggiani; Maurizio Reduzzi; Giuseppe Sansone; A N Grum-Grzhimailo; E V Gryzlova; S. I. Strakhova; Klaus Bartschat; Nicolas Douguet; Joel Venzke
Researchers demonstrate correlation of two colours (63.0 and 31.5 nm wavelengths) in a free-electron laser and control photoelectron angular distribution by adjusting phase with 3 attosecond resolution.
international free electron laser conference | 2003
D. Alesini; S. Bertolucci; M.E. Biagini; C. Biscari; R. Boni; M. Boscolo; M. Castellano; A. Clozza; G. Di Pirro; A. Drago; A. Esposito; M. Ferrario; V. Fusco; A. Gallo; A. Ghigo; S. Guiducci; M. Incurvati; P. Laurelli; C. Ligi; F. Marcellini; M. Migliorati; C. Milardi; L. Palumbo; L. Pellegrino; M. Preger; P. Raimondi; R. Ricci; C. Sanelli; F. Sgamma; B. Spataro
Abstract The Project Sorgente Pulsata e Amplificata di Radiazione Coerente (SPARC), proposed by a collaboration among ENEA–INFN–CNR–Universita’ di Tor Vergata–INFM–ST, was recently approved by the Italian Government and will be built at LNF. The aim of the project is to promote an R&D activity oriented to the development of a coherent ultra-brilliant X-ray source in Italy. This collaboration has identified a program founded on two main issues: the generation of ultra-high peak brightness electron beams and of resonant higher harmonics in the SASE-FEL process, as presented in this paper.
Journal of Synchrotron Radiation | 2015
E. Allaria; L. Badano; S. Bassanese; Flavio Capotondi; D. Castronovo; Paolo Cinquegrana; M.B. Danailov; G. D'Auria; Alexander Demidovich; R. De Monte; G. De Ninno; S. Di Mitri; B. Diviacco; William M. Fawley; Mario Ferianis; Eugenio Ferrari; G. Gaio; D. Gauthier; L. Giannessi; F. Iazzourene; Gabor Kurdi; N. Mahne; I. Nikolov; F. Parmigiani; G. Penco; Lorenzo Raimondi; P. Rebernik; Fabio Rossi; Eléonore Roussel; C. Scafuri
FERMI is a seeded free-electron laser (FEL) facility located at the Elettra laboratory in Trieste, Italy, and is now in user operation with its first FEL line, FEL-1, covering the wavelength range between 100 and 20 nm. The second FEL line, FEL-2, a high-gain harmonic generation double-stage cascade covering the wavelength range 20-4 nm, has also completed commissioning and the first user call has been recently opened. An overview of the typical operating modes of the facility is presented.
Nature Communications | 2016
Eugenio Ferrari; C. Spezzani; Franck Fortuna; Renaud Delaunay; F. Vidal; I. Nikolov; Paolo Cinquegrana; B. Diviacco; D. Gauthier; G. Penco; Primož Rebernik Ribič; Eléonore Roussel; Marco Trovò; J.-B. Moussy; Tommaso Pincelli; Lounès Lounis; Michele Manfredda; Emanuele Pedersoli; Flavio Capotondi; Cristian Svetina; N. Mahne; Marco Zangrando; Lorenzo Raimondi; Alexander Demidovich; L. Giannessi; Giovanni De Ninno; M.B. Danailov; E. Allaria; Maurizio Sacchi
The advent of free-electron laser (FEL) sources delivering two synchronized pulses of different wavelengths (or colours) has made available a whole range of novel pump–probe experiments. This communication describes a major step forward using a new configuration of the FERMI FEL-seeded source to deliver two pulses with different wavelengths, each tunable independently over a broad spectral range with adjustable time delay. The FEL scheme makes use of two seed laser beams of different wavelengths and of a split radiator section to generate two extreme ultraviolet pulses from distinct portions of the same electron bunch. The tunability range of this new two-colour source meets the requirements of double-resonant FEL pump/FEL probe time-resolved studies. We demonstrate its performance in a proof-of-principle magnetic scattering experiment in Fe–Ni compounds, by tuning the FEL wavelengths to the Fe and Ni 3p resonances.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2002
G. Dattoli; L. Giannessi; P. L. Ottaviani; H.P. Freund; S. G. Biedron; S.V. Milton
We consider an undulator scheme to enhance harmonic generation in high gain free electron lasers. The configuration we consider consists of an undulator providing an on axis field oscillating in both transverse directions, with relatively integer multiple spatial periods. We discuss the spectral properties of the radiation emitted by relativistic electrons crossing this undulator and derive the equations describing the free electron laser evolution. We show that a device, exploiting such an undulator configuration, is a fairly useful tool to obtain simultaneous laser power at different harmonics. The analysis of the system evolution is achieved with two different simulation codes.
Optics Express | 2013
Benoı̂t Mahieu; E. Allaria; D. Castronovo; M.B. Danailov; Alexander Demidovich; Giovanni De Ninno; Simone Di Mitri; William M. Fawley; Eugenio Ferrari; Lars Fröhlich; D. Gauthier; L. Giannessi; N. Mahne; G. Penco; Lorenzo Raimondi; S. Spampinati; C. Spezzani; Cristian Svetina; M. Trovo; Marco Zangrando
We present the experimental demonstration of a method for generating two spectrally and temporally separated pulses by an externally seeded, single-pass free-electron laser operating in the extreme-ultraviolet spectral range. Our results, collected on the FERMI@Elettra facility and confirmed by numerical simulations, demonstrate the possibility of controlling both the spectral and temporal features of the generated pulses. A free-electron laser operated in this mode becomes a suitable light source for jitter-free, two-colour pump-probe experiments.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1999
R.P. Walker; B. Diviacco; C. Fava; A. Gambitta; M. Marsi; F. Mazzolini; M.E. Couprie; L. Nahon; D. Nutarelli; E. Renault; R. Roux; M.W. Poole; N. Bliss; A.A Chesworth; J.A. Clarke; D. Nölle; H. Quick; G. Dattoli; L. Giannessi; L. Mezi; P. L. Ottaviani; A. Torre; M. Eriksson; S. Werin
Abstract The main features and novel technical aspects of a new European project to integrate a free-electron laser on an existing “third generation” synchrotron radiation user facility are described, including the design of the optical cavity and undulator, the electron beam characteristics and a first assessment of the predicted laser performance.
IEEE Journal of Quantum Electronics | 1995
F. Ciocci; G. Dattoli; A. De Angelis; B. Faatz; F. Garosi; L. Giannessi; P. L. Ottaviani; A. Torre
We explore the feasibility conditions of a high-power EEL operating in the VUV region (below 100 nm) and exploiting a coupled oscillator triplicator configuration. A high quality beam from a linac is passed through a EEL oscillator and produces laser radiation at 240 nm. The same beam is extracted and then injected into a second undulator tuned at the third harmonic of the first. The bunching produced in the oscillator allows the start up of the laser signal in the second section which operates as an amplifier. We discuss the dynamical behavior of the system and the dependence of the output power on the characteristics of the e-beam and of the oscillator. The possibility of enhancing the output power, adding a tapered section to the second undulator, is finally analyzed. >
