Publications

1. Ferrari, E. et al. Widely tunable two-colour seeded free-electron laser source for resonant-pump resonant-probe magnetic scattering. Nat Commun 7, 10343 (2016).
2. Bencivenga, F. et al. Experimental setups for FEL-based four-wave mixing experiments at FERMI. Journal of Synchrotron Radiation 23, 132–140 (2016).
3. Yamamoto, S. et al. Ultrafast spin-switching of a ferrimagnetic alloy at room temperature traced by resonant magneto-optical Kerr effect using a seeded free electron laser. Rev. Sci. Instrum. 86, 083901 (2015).
4. Spezzani, C. et al. Optically induced Fe magnetization reversal in Fe/MnAs/GaAs(001). in Proceedings of SPIE 9512, 95120I–95120I–5 (2015).
5. Raimondi, L. et al. Active Optics Systems at FERMI Free Electron Laser. in Proceedings of AOMS AOM4B.1 (OSA, 2015). doi:10.1364/AOMS.2015.AOM4B.1
6. Mincigrucci, R. et al. Role of the ionization potential in nonequilibrium metals driven to absorption saturation. Phys. Rev. E 92, 011101 (2015).
7. Kirian, R. A. et al. Direct Phasing of Finite Crystals Illuminated with a Free-Electron Laser. Phys. Rev. X 5, 011015 (2015).
8. Cucini, R. et al. Toward the Extreme Ultra Violet Four Wave Mixing Experiments: From Table Top Lasers to Fourth Generation Light Sources. Photonics 2, 57–70 (2015).
9. Capotondi, F. et al. Multipurpose end-station for coherent diffraction imaging and scattering at FERMI@Elettra free-electron laser facility. J. Synchrotron Radiat. 22, 544–552 (2015).
10. Bencivenga, F. et al. Four-wave mixing experiments with extreme ultraviolet transient gratings. Nature 520, 205–208 (2015).
11. Bencivenga, F. et al. FEL-based transient grating spectroscopy. in Proceedings of SPIE 9512, 951212–951212–6 (2015).
12. Yoon, C. H. et al. Conformation sequence recovery of a non-periodic object from a diffraction-before-destruction experiment. Opt. Express 22, 8085–8093 (2014).
13. Von Korff Schmising, C. et al. Imaging Ultrafast Demagnetization Dynamics after a Spatially Localized Optical Excitation. Phys. Rev. Lett. 112, 217203 (2014).
14. Spezzani, C. et al. Magnetization and Microstructure Dynamics in Fe/MnAs/GaAs(001): Fe Magnetization Reversal by a Femtosecond Laser Pulse. Phys. Rev. Lett. 113, 247202 (2014).
15. Martin, A. V. et al. X-ray holography with a customizable reference. Nat. Commun. 5, 4661 (2014).
16. Danailov, M. B. et al. Towards jitter-free pump-probe measurements at seeded free electron laser facilities. Opt. Express 22, 12869 (2014).
17. Casolari, F. et al. Role of multilayer-like interference effects on the transient optical response of Si3N4 films pumped with free-electron laser pulses. Appl. Phys. Lett. 104, 191104 (2014).
18. Bencivenga, F. et al. Multi-colour pulses from seeded free-electron-lasers: towards the development of non-linear core-level coherent spectroscopies. Faraday Discuss. (2014). doi:10.1039/C4FD00100A
19. Allaria, E. et al. Control of the Polarization of a Vacuum-Ultraviolet, High-Gain, Free-Electron Laser. Phys. Rev. X 4, 041040 (2014).
20. Zangrando, M. et al. Jitter-free time resolved resonant cdi experiments using two-color fel pulses generated by the same electron bunch. in FEL 2013: Proceedings of the 35th International Free-Electron Laser Conference 753–756 (2013).
21. Svetina, C. et al. Status and achievements at FERMI@Elettra: the first double cascade seeded EUV-SXR FEL facility open to users. in Proceedings of SPIE 8849, 88490O (2013).
22. Raimondi, L. et al. K-B bendable system optimization at FERMI@Elettra FEL: impact of different spatial wavelengths on the spot size. in Proceedings of SPIE 8848, 88480B–88480B–8 (2013).
23. Raimondi, L. et al. Microfocusing of the FERMI@Elettra FEL beam with a K–B active optics system: Spot size predictions by application of the WISE code. Nucl. Instrum. Meth. A 710, 131–138 (2013).
24. Pedersoli, E. et al. Mesoscale morphology of airborne core–shell nanoparticle clusters: x-ray laser coherent diffraction imaging. J. Phys. B: At. Mol. Opt. Phys. 46, 164033 (2013).
25. Park, H. J. et al. Toward unsupervised single-shot diffractive imaging of heterogeneous particles using X-ray free-electron lasers. Opt. Express 21, 28729 (2013).
26. Müller, L. et al. Ultrafast Dynamics of Magnetic Domain Structures Probed by Coherent Free-Electron Laser Light. Synchrotron Radiat. News 26, 27–32 (2013).
27. Loh, N. D. et al. Sensing the wavefront of x-ray free-electron lasers using aerosol spheres. Opt. Express 21, 12385 (2013).
28. Capotondi, F. et al. Invited Article: Coherent imaging using seeded free-electron laser pulses with variable polarization: First results and research opportunities. Rev. Sci. Instrum. 84, 051301 (2013).
29. Allaria, E. et al. Two-colour pump–probe experiments with a twin-pulse-seed extreme ultraviolet free-electron laser. Nat. Commun. 4, 2476 (2013).
30. Martin, A. V. et al. Noise-robust coherent diffractive imaging with a single diffraction pattern. Opt. Express 20, 16650 (2012).
31. Martin, A. V. et al. Femtosecond dark-field imaging with an X-ray free electron laser. Opt. Express 20, 13501 (2012).
32. Loh, N. D. et al. Profiling structured beams using injected aerosols. in Proceedings of SPIE (eds. Moeller, S. P., Yabashi, M. & Hau-Riege, S. P.) 8504 , X-Ray Free-Electron Lasers: Beam Diagnostics, Beamline Instrumentation, and Applications, 850403 (2012).
33. Loh, N. D. et al. Fractal morphology, imaging and mass spectrometry of single aerosol particles in flight. Nature 486, 513–517 (2012).
34. Capotondi, F. et al. A scheme for lensless X-ray microscopy combining coherent diffraction imaging and differential corner holography. Opt. Express 20, 25152 (2012).
35. Allaria, E. et al. Tunability experiments at the FERMI@Elettra free-electron laser. New J. Phys. 14, 113009 (2012).
36. Yoon, C. H. et al. Unsupervised classification of single-particle X-ray diffraction snapshots by spectral clustering. Opt. Express 19, 16542 (2011).
37. Pedersoli, E. et al. Multipurpose modular experimental station for the DiProI beamline of Fermi@Elettra free electron laser. Rev. Sci. Instrum. 82, 043711 (2011).
38. Martin, A. V. et al. Single particle imaging with soft x-rays at the Linac Coherent Light Source. in Proceedings of SPIE (eds. Tschentscher, T. & Cocco, D.) 8078, 807809 (2011).
39. Di Mitri, S. et al. Commissioning and Initial Operation of FERMI@Elettra. in Proceedings of IPAC2011, San Sebastián, Spain A05 Synchrotron Radiation Facilities TUZA01, 918–922 (2011).
40. Wan, W. et al. PHOTOCATHODE R&D PROGRAM AT LBNL. in Proceedings of the 2008 LINAC Conference 642 (2008). at <http://accelconf.web.cern.ch/Accelconf/LINAC08/papers/tup101.pdf>
41. Pedersoli, E. et al. Surface and bulk contribution to Cu(111) quantum efficiency. Appl. Phys. Lett. 93, 183505 (2008).
42. Pagliara, S. et al. Light tuning of the image potential state electron-electron interactions. Surf. Sci. 602, 2983–2988 (2008).
43. Pagliara, S. et al. Angle resolved photoemission study of image potential states and surface states on Cu(111). Surf. Sci. 600, 4290–4293 (2006).
44. Giannetti, C. et al. On the role of athermal electrons in non-linear photoemission from Ag(100). Eur. Phys. J. B 53, 121–125 (2006).
45. Caravati, S. et al. Cu(111) and Cu(001) surface electronic states. Comparison between theory and experiment. Surf. Sci. 600, 3901–3905 (2006).
46. Pedersoli, E. et al. Evidence of vectorial photoelectric effect on Copper. Appl. Phys. Lett. 87, 081112 (2005).
47. Banfi, F. et al. Monte Carlo transverse emittance study on Cs2Te. in Proceedings of the 27th International Free Electron Laser Conference JACoW / eConf C0508213, 572–575 (2005).
48. Borgonovi, F., Celardo, G. L., Maianti, M. & Pedersoli, E. Broken Ergodicity in Classically Chaotic Spin Systems. J. Stat. Phys. 116, 1435–1447 (2004).