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224 results on '"Cultrera, L."'

1. Towards construction of a novel nm resolution MeV-STEM for imaging of thick biological samples

Author

Yang, X., Wang, L., Maxson, J., Bartnik, A., Kaemingk, M., Wan, W., Cultrera, L., Wu, L., Smaluk, V., Shaftan, T., McSweeney, S., Jing, C., Kostin, R., and Zhu, Y.

Subjects
Physics - Instrumentation and Detectors, Physics - Applied Physics
Abstract

Driven by life-science applications, mega-electron-volt Scanning Transmission Electron Microscope (MeV-STEM) has been proposed to image thick biological samples. The high penetration of inelastic scattering signals of MeV electrons could make the MeV-STEM an appropriate microscope for biological samples as thick as 10 {\mu}m or more with a nanoscale resolution, considering the effect of electron energy, beam broadening and low-dose limit on resolution. The best resolution is inversely related to the sample thickness and changes from 6 nm to 24 nm when the sample thickness increases from 1 {\mu}m to 10 {\mu}m. To achieve such a resolution in STEM, the imaging electrons must be focused on the specimen with a nm size and a mrad semi-convergence angle. This requires an electron beam emittance of a few picometer, which is ~1,000 times smaller than the presently achieved nm emittance, in conjunction with less than 10-4 energy spread and 1 nA current. We numerically simulated two different approaches that are potentially applicable to build a compact MeV-STEM instrument: 1) DC gun, aperture, Superconducting radio frequency (SRF) cavities, and STEM column; 2) SRF gun, aperture, SRF cavities, and STEM column. Beam dynamic simulations show promising results, which meet the needs of an MeV-STEM, a few picometer emittance, less than 10-4 energy spread, and 0.1-1 nA current from both options. Also, we designed a compact STEM column based on permanent quadrupole quintuplet not only to demagnify the beam size from 1 {\mu}m at the source point to 2 nm at the specimen, but also to provide the freedom of changing the magnifications at the specimen and a scanning system to raster the electron beam across the sample with a step size of 2 nm and the repetition rate of 1 MHz. This makes it possible to build a compact MeV-STEM and use it to study thick, large-volume samples in cell biology.

Published
2023

2. A kiloelectron-volt ultrafast electron micro-diffraction apparatus using low emittance semiconductor photocathodes

Author

Li, W. H., Duncan, C. J. R., Andorf, M. B., Bartnik, A. C., Bianco, E., Cultrera, L., Galdi, A., Gordon, M., Kaemingk, M., Pennington, C. A., Kourkoutis, L. F., Bazarov, I. V., and Maxson, J. M.

Subjects
Physics - Accelerator Physics
Abstract

We report the design and performance of a time-resolved electron diffraction apparatus capable of producing intense bunches with simultaneously single digit micron probe size, long coherence length, and $200$ fs rms time resolution. We measure the 5d (peak) beam brightness at the sample location in micro-diffraction mode to be $7 \times 10^{13} \ \mathrm{A}/\text{m}^2\text{-rad}^2$. To generate high brightness electron bunches, the system employs high efficiency, low emittance semiconductor photocathodes driven with a wavelength near the photoemission threshold at a repetition rate up to 250 kHz. We characterize spatial, temporal, and reciprocal space resolution of the apparatus. We perform proof-of-principle measurements of ultrafast heating in single crystal Au samples and compare experimental results with simulations that account for the effects of multiple-scattering., Comment: 13 pages, 10 figures, submitted to Structural Dynamics

Published
2021
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3. Photoemission characterization of N-polar III-Nitride photocathodes as bright electron beam source for accelerator applications

Author

Cultrera, L., Rocco, E., Shahedipour-Sandvik, F., Bell, L. D., Bae, J. K., Bazarov, I. V., Saha, P., Karkare, S., and Arjunan, A.

Subjects
Physics - Accelerator Physics, Physics - Applied Physics
Abstract

We report on the growth and characterization of a new class of photocathode structures for application as electron sources to produce high brightness electron beams for accelerator applications. The sources are realized using III-Nitride materials and are designed to leverage the strong polarization field characteristic of this class material while grown in their wurtzite crystal structure to produce a negative electron affinity condition without the use of Cs, possibly allowing these materials to be operated in RF gun. A Quantum Efficiency (QE) of about 1x10$^{-3}$ and a Mean Transverse Energy (MTE) of electron of about 100 meV are measured at the operating wavelength of 265 nm. In a vacuum level of 3x10$^{-10}$ Torr the QE does not decrease after more than 24 hours of continuous operation. The lowest MTE, about 50 meV, is measured at 300 nm where the measured QE is 1.5x10$^{-5}$. Surface characterizations reveal possible contribution to the MTE due to the surface morphology calling for more detailed studies., Comment: will be submitted to Journal of Applied Physics

Published
2021
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4. Educational and Skills Mismatches: Unravelling Their Effects on Wages across Europe

Author

Cultrera, L., Mahy, B., Rycx, F., and Vermeylen, G.

Abstract

This paper is among the first to investigate the impact of over-education and over-skilling on workers' wages using a unique pan-European database covering twenty-eight countries for the year 2014, namely the CEDEFOP's European Skills and Jobs (ESJ) survey. Overall, the results suggest the existence of a wage penalty associated with over-education. When the educational and the skills mismatches are interacted with each other in order to distinguish apparent over-education from genuine over-education, the results highlight that the workers with the highest wage penalty are those who are both over-educated and over-skilled.

Published
2022
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5. CBETA Design Report, Cornell-BNL ERL Test Accelerator

Author

Hoffstaetter, G. H., Trbojevic, D., Mayes, C., Banerjee, N., Barley, J., Bazarov, I., Bartnik, A., Berg, J. S., Brooks, S., Burke, D., Crittenden, J., Cultrera, L., Dobbins, J., Douglas, D., Dunham, B., Eichhorn, R., Full, S., Furuta, F., Franck, C., Gallagher, R., Ge, M., Gulliford, C., Heltsley, B., Jusic, D., Kaplan, R., Kostroun, V., Li, Y., Liepe, M., Liu, C., Lou, W., Mahler, G., Meot, F., Michnoff, R., Minty, M., Patterson, R., Peggs, S., Ptitsyn, V., Quigley, P., Roser, T., Sabol, D., Sagan, D., Sears, J., Shore, C., Smith, E., Smolenski, K., Thieberger, P., Trabocchi, S., Tuozzolo, J., Tsoupas, N., Veshcherevich, V., Widger, D., Wang, G., Willeke, F., and Xu, W.

Subjects
Physics - Accelerator Physics
Abstract

This design report describes the construction plans for the world's first multi-pass SRF ERL. It is a 4-pass recirculating linac that recovers the beam's energy by 4 additional, decelerating passes. All beams are returned for deceleration in a single beam pipe with a large-momentum-aperture permanent magnet FFAG optics. Cornell University has been pioneering a new class of accelerators, Energy Recovery Linacs (ERLs), with a new characteristic set of beam parameters. Technology has been prototyped that is essential for any high brightness electron ERL. This includes a DC electron source and an SRF injector Linac with world-record current and normalized brightness in a bunch train, a high-current linac cryomodule, and a high-power beam stop, and several diagnostics tools for high-current and high-brightness beams. All these are now being used to construct a novel one-cryomodule ERL in Cornell's Wilson Lab. Brookhaven National Laboratory (BNL) has designed a multi-turn ERL for eRHIC, where beam is transported more than 20 times around the 4km long RHIC tunnel. The number of transport lines is minimized by using two arcs with strongly-focusing permanent magnets that can control many beams of different energies. A collaboration between BNL and Cornell has been formed to investigate this multi-turn eRHIC ERL design by building a 4-turn, one-cryomodule ERL at Cornell. It also has a return loop built with strongly focusing permanent magnets and is meant to accelerate 40mA beam to 150MeV. This high-brightness beam will have applications beyond accelerator research, in industry, in nuclear physics, and in X-ray science.

Published
2017

6. Ultrafast laser pulse heating of metallic photocathodes and its contribution to intrinsic emittance

Author

Maxson, J., Musumeci, P., Cultrera, L., Karkare, S., and Padmore, H.

Subjects
Physics - Accelerator Physics
Abstract

The heating of the electronic distribution of a copper photocathode due to an intense drive laser pulse is calculated under the two-temperature model using fluences and pulse lengths typical in RF photoinjector operation. Using the finite temperature-extended relations for the photocathode intrinsic emittance and quantum efficiency, the time-dependent emittance growth due to the same photoemission laser pulse is calculated. This laser heating is seen to limit the intrinsic emittance achievable for photoinjectors using short laser pulses and low quantum efficiency metal photocathodes. A pump-probe photocathode experiment in a standard 1.6 cell S-band gun is proposed, in which simulations show the time dependent thermal emittance modulation within the bunch from laser heating can persist for meters downstream and, in principle, be measured using a slice emittance diagnostic.

Published
2016
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7. Proposal for taking data with the KLOE-2 detector at the DA$\Phi$NE collider upgraded in energy

Author

Babusci, D., Bini, C., Bossi, F., Isidori, G., Moricciani, D., Nguyen, F., Raimondi, P., Venanzoni, G., Alesini, D., Archilli, F., Badoni, D., Baldini-Ferroli, R., Bellaveglia, M., Bencivenni, G., Bertani, M., Biagini, M., Biscari, C., Bloise, C., Bocci, V., Boni, R., Boscolo, M., Branchini, P., Budano, A., Bulychjev, S. A., Buonomo, B., Campana, P., Capon, G., Castellano, M., Ceradini, F., Chiadroni, E., Ciambrone, P., Cultrera, L., Czerwinski, E., Dané, E., Monache, G. Delle, De Lucia, E., Demma, T., De Robertis, G., De Santis, A., De Zorzi, G., Di Domenico, A., Di Donato, C., Di Micco, B., Di Pasquale, E., Di Pirro, G., Di Salvo, R., Domenici, D., Drago, A., Esposito, M., Erriquez, O., Felici, G., Ferrario, M., Ficcadenti, L., Filippetto, D., Fiore, S., Franzini, P., Franzini, G., Gallo, A., Gatti, G., Gauzzi, P., Giovannella, S., Ghigo, A., Gonnella, F., Graziani, E., Guiducci, S., Happacher, F., Höistad, B., Iarocci, E., Jacewicz, M., Johansson, T., Kluge, W., Kulikov, V. V., Kupsc, A., Franzini, J. Lee, Ligi, C., Loddo, F., Lukin, P., Marcellini, F., Marchetti, C., Martemianov, M. A., Martini, M., Matsyuk, M. A., Mazzitelli, G., Messi, R., Milardi, C., Mirazzita, M., Miscetti, S., Morello, G., Moskal, P., Müeller, S., Pacetti, S., Pancheri, G., Pasqualucci, E., Passera, M., Passeri, A., Patera, V., Polosa, A. D., Preger, M., Quintieri, L., Ranieri, A., Rossi, P., Sanelli, C., Santangelo, P., Sarra, I., Schioppa, M., Sciascia, B., Serio, M., Sgamma, F., Silarski, M., Spataro, B., Stecchi, A., Stella, A., Stucci, S., Taccini, C., Tomassini, S., Tortora, L., Vaccarezza, C., Versaci, R., Wislicki, W., Wolke, M., Zdebik, J., and Zobov, M.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

This document reviews the physics program of the KLOE-2 detector at DA$\Phi$NE upgraded in energy and provides a simple solution to run the collider above the $\phi$-peak (up to 2, possibly 2.5 GeV). It is shown how a precise measurement of the multihadronic cross section in the energy region up to 2 (possibly 2.5) GeV would have a major impact on the tests of the Standard Model through a precise determination of the anomalous magnetic moment of the muon and the effective fine-structure constant at the $M_Z$ scale. With a luminosity of about $10^{32}$cm$^{-2}$s$^{-1}$, DA$\Phi$NE upgraded in energy can perform a scan in the region from 1 to 2.5 GeV in one year by collecting an integrated luminosity of 20 pb$^{-1}$ (corresponding to a few days of data taking) for single point, assuming an energy step of 25 MeV. A few years of data taking in this region would provide important tests of QCD and effective theories by $\gamma\gamma$ physics with open thresholds for pseudo-scalar (like the $\eta'$), scalar ($f_0,f'_0$, etc...) and axial-vector ($a_1$, etc...) mesons; vector-mesons spectroscopy and baryon form factors; tests of CVC and searches for exotics. In the final part of the document a technical solution for the energy upgrade of DA$\Phi$NE is proposed., Comment: 19 pages, 8 figures

Published
2010

8. Multi-GeV Electron Spectrometer

Author

Faccini, R., Anelli, F., Bacci, A., Batani, D., Bellaveglia, M., Benocci, R., Benedetti, C., Cacciotti, L., Cecchetti, C. A., Clozza, A., Cultrera, L., Di~Pirro, G., Drenska, N., Ferrario, M., Filippetto, D., Fioravanti, S., Gallo, A., Gamucci, A., Gatti, G., Ghigo, A., Giulietti, A., Giulietti, D., Gizzi, L. A., Koester, P., Labate, L., Levato, T., Lollo, V., Londrillo, P., Martellotti, S., Pace, E., Patack, N., Rossi, A., Tani, F., Serafini, L., Turchetti, G., Vaccarezza, C., and Valente, P.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The advance in laser plasma acceleration techniques pushes the regime of the resulting accelerated particles to higher energies and intensities. In particular the upcoming experiments with the FLAME laser at LNF will enter the GeV regime with almost 1pC of electrons. From the current status of understanding of the acceleration mechanism, relatively large angular and energy spreads are expected. There is therefore the need to develop a device capable to measure the energy of electrons over three orders of magnitude (few MeV to few GeV) under still unknown angular divergences. Within the PlasmonX experiment at LNF a spectrometer is being constructed to perform these measurements. It is made of an electro-magnet and a screen made of scintillating fibers for the measurement of the trajectories of the particles. The large range of operation, the huge number of particles and the need to focus the divergence present unprecedented challenges in the design and construction of such a device. We will present the design considerations for this spectrometer and the first results from a prototype., Comment: 7 pages, 6 figures, submitted to NIM A

Published
2010
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12. Photoemission characterization of N-polar III-nitride photocathodes as candidate bright electron beam sources for accelerator applications.

Author

Cultrera, L., Rocco, E., Shahedipour-Sandvik, F., Bell, L. D., Bae, J. K., Bazarov, I. V., Saha, P., Karkare, S., and Arjunan, A.

Subjects
*ELECTRON sources, *ELECTRON beams, *ELECTRON affinity, *PHOTOEMISSION, *PHOTOCATHODES, *QUANTUM efficiency
Abstract

We report on the growth and characterization of a new class of photocathode structures for use as electron sources to produce high brightness electron beams for accelerator applications. The sources are realized using III-nitride materials and are designed to leverage the strong polarization field, which is characteristic of this class of materials when grown in their wurtzite crystal structure, to produce a negative electron affinity condition without the use of Cs, possibly allowing these materials to be operated in radio frequency guns. A Quantum Efficiency (QE) of about 1 × 10 − 3 and an emitted electrons' Mean Transverse Energy (MTE) of about 100 meV are measured at a wavelength of 265 nm. In a vacuum level of 3 × 10 − 10 Torr, the QE does not decrease after more than 24 h of continuous operation. The lowest MTE of about 50 meV is measured at 300 nm along with a QE of 1.5 × 10 − 5 . Surface characterizations reveal a possible contribution to the MTE from surface morphology, calling for more detailed studies. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Development of a Multi-GeV spectrometer for laser–plasma experiment at FLAME

Author

Valente, P., Anelli, F., Bacci, A., Batani, D., Bellaveglia, M., Benocci, R., Benedetti, C., Cacciotti, L., Cecchetti, C.A., Clozza, A., Cultrera, L., Di Pirro, G., Drenska, N., Faccini, R., Ferrario, M., Filippetto, D., Fioravanti, S., Gallo, A., Gamucci, A., Gatti, G., Ghigo, A., Giulietti, A., Giulietti, D., Gizzi, L.A., Koester, P., Labate, L., Levato, T., Lollo, V., Londrillo, P., Martellotti, S., Pace, E., Pathak, N., Rossi, A., Tani, F., Serafini, L., Turchetti, G., and Vaccarezza, C.

Published
2011
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15. Laser comb with velocity bunching: Preliminary results at SPARC

Author

Ferrario, M., Alesini, D., Bacci, A., Bellaveglia, M., Boni, R., Boscolo, M., Calvani, P., Castellano, M., Chiadroni, E., Cianchi, A., Cultrera, L., Di Pirro, G., Ficcadenti, L., Filippetto, D., Gallo, A., Gatti, G., Giannessi, L., Labat, M., Lupi, S., Marchetti, B., Marrelli, C., Migliorati, M., Mostacci, A., Nicoletti, D., Pace, E., Palumbo, L., Petrillo, V., Quattromini, M., Ronsivalle, C., Rossi, A.R., Rosenzweig, J., Serafini, L., Serluca, M., Spataro, B., Tomizawa, H., Vaccarezza, C., and Vicario, C.

Published
2011
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17. A kiloelectron-volt ultrafast electron micro-diffraction apparatus using low emittance semiconductor photocathodes

Author

Li, W. H., primary, Duncan, C. J. R., additional, Andorf, M. B., additional, Bartnik, A. C., additional, Bianco, E., additional, Cultrera, L., additional, Galdi, A., additional, Gordon, M., additional, Kaemingk, M., additional, Pennington, C. A., additional, Kourkoutis, L. F., additional, Bazarov, I. V., additional, and Maxson, J. M., additional

Published
2022
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19. Status of Thomson source at SPARC/PLASMONX

Author

Bacci, A., Broggi, F., DeMartinis, C., Giove, D., Maroli, C., Petrillo, V., Rossi, A.R., Serafini, L., Tomassini, P., Cultrera, L., Di Pirro, G., Ferrario, M., Filippetto, D., Gatti, G., Pace, E., Vaccarezza, C., Vicario, C., Bosi, F., Giulietti, D., Gizzi, L.A., and Oliva, P.

Published
2009
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21. Seeding experiments at SPARC

Author

Giannessi, L., Alesini, D., Biagini, M., Boscolo, M., Bougeard, M., Breger, P., Carré, B., Castellano, M., Cianchi, A., Ciocci, F., Chiadroni, E., Clozza, A., Couprie, M.E., Cultrera, L., Dattoli, G., De Silvestri, S., Di Pace, A., Di Pirro, G., Doria, A., Drago, A., Ferrario, M., Filippetto, D., Frassetto, F., Fusco, V., Gallerano, G.P., Gallo, A., Garzella, D., Ghigo, A., Germano, M., Giovenale, E., Labat, M., Lambert, G., Mattioli, M., Merdji, H., Monchicourt, P., Migliorati, M., Musumeci, P., Nisoli, M., Orlandi, G.L., Ottaviani, P.L., Pace, E., Pagnutti, S., Palumbo, L., Petralia, A., Petrarca, M., Poletto, L., Quattromini, M., Reiche, S., Rosenzweig, J.B., Ronsivalle, C., Salières, P., Sabia, E., Sansone, G., Serafini, L., Spassovsky, I., Spataro, B., Stagira, S., Surrenti, V., Tchebakoff, O., Tomassini, S., Tondello, G., Vaccarezza, C., and Vicario, C.

Published
2008
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33. Droplet distributions from melt displacement and ejection mechanism during Al ns-laser ablation and deposition experiments: Influence of laser spot position.

Author

Cultrera, L., Lorusso, A., Maiolo, B., Cangueiro, L., Vilar, R., and Perrone, A.

Subjects
*DROPLETS, *LASER ablation, *SEDIMENTATION & deposition, *GIRDERS, *ROTATIONAL motion, *INDUSTRIAL lasers
Abstract

Experimental observations of the angular distribution of droplets during laser ablation and deposition of Al thin films are presented and discussed. The experimental results, obtained by simply moving the laser spot position with respect to the rotation axis of the target, allow clarification of the unexpected symmetric double peaked angular droplet distribution on the films. These results provide direct evidence that a laser fluence threshold exists, beyond which droplets are generated from a melt displacement and ejection mechanism rather than from a phase explosion. The main directions of particulate ejection are related to the particular geometry of the laser generated tracks, whose profiles depend on the relative position of the incident beam with respect to the rotation axis of the target. [ABSTRACT FROM AUTHOR]

Published
2014
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35. Development of a Multi-GeV spectrometer for laserplasma experiment at FLAME

Author

Valente, P, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benocci, R, Benedetti, C, Cacciotti, L, Cecchetti, C, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Faccini, R, Ferrario, M, Filippetto, D, Fioravanti, S, Gallo, A, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Gizzi, L, Koester, P, Labate, L, Levato, T, Lollo, V, Londrillo, P, Martellotti, S, Pace, E, Pathak, N, Rossi, A, Tani, F, Serafini, L, Turchetti, G, Vaccarezza, C, Valente P., Anelli F., Bacci A., Batani D., Bellaveglia M., Benocci R., Benedetti C., Cacciotti L., Cecchetti C. A., Clozza A., Cultrera L., Di Pirro G., Drenska N., Faccini R., Ferrario M., Filippetto D., Fioravanti S., Gallo A., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Gizzi L. A., Koester P., Labate L., Levato T., Lollo V., Londrillo P., Martellotti S., Pace E., Pathak N., Rossi A., Tani F., Serafini L., Turchetti G., Vaccarezza C., Valente, P, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benocci, R, Benedetti, C, Cacciotti, L, Cecchetti, C, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Faccini, R, Ferrario, M, Filippetto, D, Fioravanti, S, Gallo, A, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Gizzi, L, Koester, P, Labate, L, Levato, T, Lollo, V, Londrillo, P, Martellotti, S, Pace, E, Pathak, N, Rossi, A, Tani, F, Serafini, L, Turchetti, G, Vaccarezza, C, Valente P., Anelli F., Bacci A., Batani D., Bellaveglia M., Benocci R., Benedetti C., Cacciotti L., Cecchetti C. A., Clozza A., Cultrera L., Di Pirro G., Drenska N., Faccini R., Ferrario M., Filippetto D., Fioravanti S., Gallo A., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Gizzi L. A., Koester P., Labate L., Levato T., Lollo V., Londrillo P., Martellotti S., Pace E., Pathak N., Rossi A., Tani F., Serafini L., Turchetti G., and Vaccarezza C.

Abstract

The advance in laser-plasma acceleration techniques pushes the regime of the resulting accelerated particles to higher energies and intensities. In particular, the upcoming experiments with the 250 TW laser at the FLAME facility of the INFN Laboratori Nazionali di Frascati, will enter the GeV regime with more than 100 pC of electrons. At the current status of understanding of the acceleration mechanism, relatively large angular and energy spreads are expected. There is therefore the need for developing a device capable to measure the energy of electrons over three orders of magnitude (few MeV to few GeV), with still unknown angular divergences. Within the PlasmonX experiment at FLAME, a spectrometer is being constructed to perform these measurements. It is made of an electro-magnet and a screen made of scintillating fibers for the measurement of the trajectories of the particles. The large range of operation, the huge number of particles and the need to focus the divergence, present challenges in the design and construction of such a device. We present the design considerations for this spectrometer that lead to the use of scintillating fibers, multichannel photo-multipliers and a multiplexing electronics, a combination which is innovative in the field. We also present the experimental results obtained with a high intensity electron beam performed on a prototype at the LNF beam test facility. (C) 2011 Elsevier B.V. All rights reserved.

Published
2011

36. Low energy photoemission from (100) Ba1−xLaxSnO3 thin films for photocathode applications.

Author

Galdi, Alice, Pierce, Christopher M., Cultrera, L., Adhikari, Gowri, Schroeder, Walter Andreas, Paik, Hanjong, Schlom, Darrel G., Nangoi, Johannes K., Arias, Tomas A., Lochocki, E., Parzyck, Christopher, Shen, Kyle M., Maxson, Jared M., and Bazarov, Ivan V.

Subjects
PHOTOCATHODES, PHOTOEMISSION, THIN films, QUANTUM efficiency, PHOTOELECTRONS, ELECTRON work function
Abstract

Recent research on photocathodes for photoinjectors has focused on the understanding of the photoemission process at low energy (i.e. at photon energy close to the material's work function) as well as on the study of ordered and innovative photocathode materials, with the aim of minimizing the emittance at the cathode. We here present a preliminary study on low energy photoemission from (100) oriented Ba1−xLaxSnO3 thin films, characterizing their quantum efficiency and the mean transverse energy of the photoelectrons. The aim of the study is to pave the way for future experiments on innovative photocathodes based on perovkite oxides. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Multi-GeV electron spectrometer

Author

Faccini, R, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benocci, R, Benedetti, C, Cacciotti, L, Cecchetti, C, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Ferrario, M, Filippetto, D, Fioravanti, S, Gallo, A, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Gizzi, L, Koester, P, Labate, L, Levato, T, Lollo, V, Londrillo, P, Martellotti, S, Pace, E, Patack, N, Rossi, A, Tani, F, Serafini, L, Turchetti, G, Vaccarezza, C, Valente, P, Faccini R., Anelli F., Bacci A., Batani D., Bellaveglia M., Benocci R., Benedetti C., Cacciotti L., Cecchetti C. A., Clozza A., Cultrera L., Di Pirro G., Drenska N., Ferrario M., Filippetto D., Fioravanti S., Gallo A., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Gizzi L. A., Koester P., Labate L., Levato T., Lollo V., Londrillo P., Martellotti S., Pace E., Patack N., Rossi A., Tani F., Serafini L., Turchetti G., Vaccarezza C., Valente P., Faccini, R, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benocci, R, Benedetti, C, Cacciotti, L, Cecchetti, C, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Ferrario, M, Filippetto, D, Fioravanti, S, Gallo, A, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Gizzi, L, Koester, P, Labate, L, Levato, T, Lollo, V, Londrillo, P, Martellotti, S, Pace, E, Patack, N, Rossi, A, Tani, F, Serafini, L, Turchetti, G, Vaccarezza, C, Valente, P, Faccini R., Anelli F., Bacci A., Batani D., Bellaveglia M., Benocci R., Benedetti C., Cacciotti L., Cecchetti C. A., Clozza A., Cultrera L., Di Pirro G., Drenska N., Ferrario M., Filippetto D., Fioravanti S., Gallo A., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Gizzi L. A., Koester P., Labate L., Levato T., Lollo V., Londrillo P., Martellotti S., Pace E., Patack N., Rossi A., Tani F., Serafini L., Turchetti G., Vaccarezza C., and Valente P.

Abstract

The advance in laser-plasma acceleration techniques pushes the regime of the resulting accelerated particles to higher energies and intensities. In particular the upcoming experiments with the FLAME laser at LNF will enter the GeV regime with almost 1nC of electrons. From the current status of understanding of the acceleration mechanism, relatively large angular and energy spreads are expected. There is therefore the need to develop a device capable to measure the energy of electrons over three orders of magnitude (few MeV to few GeV) under still unknown angular divergences. Within the PlasmonX experiment at LNF a spectrometer is being constructed to perform these measurements. It is made of an electro-magnet and a screen made of scintillating fibers for the measurement of the trajectories of the particles. The large range of operation, the huge number of particles and the need to focus the divergence present unprecedented challenges in the design and construction of such a device. We will present the design considerations for this spectrometer and the first results from a prototype. (C) 2010 Elsevier B.V. All rights reserved.

Published
2010

38. A self-injection acceleration test experiment for the FLAME laser

Author

Labate, L, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benedetti, C, Benocci, R, Cacciotti, L, Cecchetti, C, Ciricosta, O, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Faccini, R, Ferrario, M, Filippetto, D, Gallo, S, Fioravanti, S, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Koster, P, Levato, T, Lollo, V, Pace, E, Pathak, N, Rossi, A, Serafini, L, Turchetti, G, Vaccarezza, C, Valente, P, Vicario, C, Gizzi, L, Labate L., Anelli F., Bacci A., Batani D., Bellaveglia M., Benedetti C., Benocci R., Cacciotti L., Cecchetti C. A., Ciricosta O., Clozza A., Cultrera L., Di Pirro G., Drenska N., Faccini R., Ferrario M., Filippetto D., Gallo S., Fioravanti S., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Koster P., Levato T., Lollo V., Pace E., Pathak N., Rossi A., Serafini L., Turchetti G., Vaccarezza C., Valente P., Vicario C., Gizzi L. A., Labate, L, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benedetti, C, Benocci, R, Cacciotti, L, Cecchetti, C, Ciricosta, O, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Faccini, R, Ferrario, M, Filippetto, D, Gallo, S, Fioravanti, S, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, D, Koster, P, Levato, T, Lollo, V, Pace, E, Pathak, N, Rossi, A, Serafini, L, Turchetti, G, Vaccarezza, C, Valente, P, Vicario, C, Gizzi, L, Labate L., Anelli F., Bacci A., Batani D., Bellaveglia M., Benedetti C., Benocci R., Cacciotti L., Cecchetti C. A., Ciricosta O., Clozza A., Cultrera L., Di Pirro G., Drenska N., Faccini R., Ferrario M., Filippetto D., Gallo S., Fioravanti S., Gamucci A., Gatti G., Ghigo A., Giulietti A., Giulietti D., Koster P., Levato T., Lollo V., Pace E., Pathak N., Rossi A., Serafini L., Turchetti G., Vaccarezza C., Valente P., Vicario C., and Gizzi L. A.

Abstract

A 250-TW laser system (FLAME - Frascati laser for acceleration and multidisciplinary experiments) is now in its commissioning phase in a new laboratory at LNF-INFN in the framework of the PLASMONX (Plasma acceleration and monochromatic X-ray generation) project. The laser will deliver25fs duration pulses with an energy up to 6J, at a 10Hz repetition rate. An ad hoc target area has also been designed and is currently being set up, allowing the first test experiments of electron laser wakefield acceleration to be carried out over the next few months in a safe, radiation-protected environment. An overview of the main features of the laser system and target area is given, along with a survey of the design and set-up of the self-injection test experiment, which is expected to reach the production of sub-GeV electron bunches.

Published
2010

40. Self-amplified spontaneous emission for a single pass free-electron laser

Author

Giannessi, L, Alesini, D, Antici, P, Bacci, A, Bellaveglia, M, Boni, R, Boscolo, M, Briquez, F, Castellano, M, Catani, L, Chiadroni, E, Cianchi, A, Ciocci, F, Clozza, A, Couprie, M, Cultrera, L, Dattoli, G, Del Franco, M, Dipace, A, Di Pirro, G, Doria, A, Drago, A, Fawley, W, Ferrario, M, Ficcadenti, L, Filippetto, D, Frassetto, F, Freund, H, Fusco, V, Gallerano, Gallo, G, A, Gatti, G, Ghigo, A, Giovenale, E, Marinelli, A, Labat, M, Marchetti, B, Marcus, G, Marrelli, C, Mattioli, M, Migliorati, M, Moreno, M, Mostacci, A, Orlandi, G, Pace, E, Palumbo, L, Petralia, A, Petrarca, M, Petrillo, V, Poletto, L, Uattromini, M, Rau, J, Reiche, S, Ronsivalle, C, Rosenzweig, J, Rossi, A, Rossi Albertini, V, Sabia, E, Serafini, L, Serluca, M, Spassovsky, I, Spataro, B, Surrenti, V, Vaccarezza, C, Vescovi, M, and Vicario, C

Subjects
Physics, Nuclear and High Energy Physics, Amplified spontaneous emission, Physics and Astronomy (miscellaneous), business.industry, Amplifier, Settore FIS/01 - Fisica Sperimentale, Free-electron laser, Self-amplified spontaneous emission, SPARC, free electron laser, Surfaces and Interfaces, Radiation, Laser, law.invention, Wavelength, Optics, law, lcsh:QC770-798, Optoelectronics, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Spontaneous emission, business
Abstract

SPARC (acronym of ‘‘Sorgente Pulsata ed Amplificata di Radiazione Coerente’’, i.e. Pulsed and Amplified Source of Coherent Radiation) is a single pass free-electron laser designed to obtain high gain amplification at a radiation wavelength of 500 nm. Self-amplified spontaneous emission has been observed driving the amplifier with the high-brightness beam of the SPARC linac. We report measurements of energy, spectra, and exponential gain. Experimental results are compared with simulations from several numerical codes.

Published
2011
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41. High-Gain Harmonic-Generation Free-Electron Laser Seeded by Harmonics Generated in Gas

Author

Labat M., Bellaveglia M., Bougeard M., Carré B., Ciocci F., Chiadroni E., Cianchi A., Couprie M. E., Cultrera L., Del Franco M., Di Pirro G., Drago A., Ferrario M., Filippetto D., Frassetto F., Gallo A., Garzella D., Gatti G., and Rau J.V. et al.

Subjects
Physics::Optics
Abstract

The injection of a seed in a free-electron laser (FEL) amplifier reduces the saturation length and improves the longitudinal coherence. A cascaded FEL, operating in the high-gain harmonic-generation regime, allows us to extend the beneficial effects of the seed to shorter wavelengths. We report on the first operation of a high-gain harmonic-generation free-electron laser, seeded with harmonics generated in gas. The third harmonics of a Ti:sapphire laser, generated in a gas cell, has been amplified and up-converted to its second harmonic (lambda rad=133nm) in a FEL cascaded configuration based on a variable number of modulators and radiators. We studied the transition between coherent harmonic generation and superradiant regime, optimizing the laser performances with respect to the number of modulators and radiators

Published
2011

43. ADVANCED BEAM DYNAMICS EXPERIMENTS WITH THE SPARC HIGH BRIGHTNESS PHOTOINJECTOR

Author

Ferrario, M, Alesini, D, Anelli, F, Bellaveglia, M, Boscolo, M, Cacciotti, L, Castellano, M, Chiadroni, E, Cultrera, L, Di Pirro, G, Ficcadenti, L, Filippetto, D, Fioravanti, S, Gallo, A, Gatti, G, Pace, E, Sorchetti, R, Mostacci, A, Vaccarezza, C, Giannessi, L, Petralia, A, Ronsivalle, C, Bacci, A, Petrillo, V, Rossi, A, Serafini, L, Limaj, O, Moreno, M, Serluca, M, Cianchi, A, Marchetti, B, Vicario, C, and Tomizawa, H

Subjects
Velocity bunching, emittance compensation, Velocity bunching, Settore FIS/01 - Fisica Sperimentale, emittance compensation
Published
2010

44. Multi-GeV electron spectrometer RID A-6640-2010

Author

Faccini, R, Anelli, F, Bacci, A, Batani, D, Bellaveglia, M, Benocci, R, Benedetti, C, Cacciotti, L, Cecchetti, Ca, Clozza, A, Cultrera, L, Di Pirro, G, Drenska, N, Ferrario, M, Filippetto, D, Fioravanti, S, Gallo, A, Gamucci, A, Gatti, G, Ghigo, A, Giulietti, A, Giulietti, Danilo, Gizzi, La, Koester, P, Labate, L, Levato, T, Lollo, V, Londrillo, P, Martellotti, S, Pace, E, Patack, N, Rossi, A, Tani, F, Serafini, L, Turchetti, G, Vaccarezza, C, and Valente, P.

Published
2010

45. CHARACTERIZATION OF THE THz SOURCE AT SPARC

Author

Chiadroni, E, Anelli, F, Bellaveglia, M, Boscolo, M, Castellano, M, Cultrera, L, Di Pirro, G, Ferrario, M, Ficcadenti, L, Filippetto, D, Fioravanti, S, Gatti, G, Pace, E, Sorchetti, R, Vaccarezza, C, Catani, L, Cianchi, A, Marchetti, B, Ronsivalle, C, Bacci, A, Rossi, A, Mostacci, A, Calvani, P, Limaj, O, and Nicoletti, D

Subjects
FEL, Settore FIS/01 - Fisica Sperimentale, THz radiation, transition radiation
Published
2010

46. A self-injection acceleration test experiment for the FLAME laser

Author

Labate L., Anelli F., Bacci A., Batani D., Bellaveglia M., Benedetti C., Benocci R., Cacciotti L., Cecchetti C. A., Ciricosta O., Clozza A., Cultrera L., Di Pirro G., Drenska N., Faccini R., Ferrario M., Filippetto D., Gallo S., Fioravanti S., and Gamucci A.

Subjects
laser-plasma accelerations, laser wakefield acceleration, Thomson scattering
Abstract

A 250-TW laser system (FLAME - Frascati laser for acceleration and multidisciplinary experiments) is now in its commissioning phase in a new laboratory at LNF-INFN in the framework of the PLASMONX (Plasma acceleration and monochromatic X-ray generation) project. The laser will deliver25fs duration pulses with an energy up to 6J, at a 10Hz repetition rate. An ad hoc target area has also been designed and is currently being set up, allowing the first test experiments of electron laser wakefield acceleration to be carried out over the next few months in a safe, radiation-protected environment. An overview of the main features of the laser system and target area is given, along with a survey of the design and set-up of the self-injection test experiment, which is expected to reach the production of sub-GeV electron bunches.

Published
2010

47. FEL experiments at sparc: Operation in seeded and chirped mode

Author

Giannessi, L., Petralia, A., Dattoli, G., Ciocci, F., Del Franco, M., Quattromini, M., Ronsivalle, C., Sabia, E., Spassovsky, I., Surrenti, V., Filippetto, D., Di Pirro, G., Gatti, G., Bellaveglia, M., Alesini, D., Castellano, M., Chiadroni, E., Cultrera, L., Ferrario, M., Ficcadenti, L., Gallo, A., Ghigo, A., Pace, E., Spataro, B., Vaccarezza, C., Bacci, A., Petrillo, V., Rossi, A. R., Serafini, L., Serluca, M., Moreno, M., Poletto, L., Frassetto, F., Rau, J. V., Rossi Albertini, V., Cianchi, A., Mostacci, A., Mauro Migliorati, Palumbo, L., Marcus, G., Musumeci, P., Rosenzweig, J., Spampinati, S., Labat, M., Briquez, F., Couprie, M. E., Carré, B., Bougeard, M., Garzella, D., Lambert, G., and Vicario, C.

Published
2010

48. FEL experiments at SPARC: seeding with harmonics generated in gas

Author

Giannessi L., Petralia A., Dattoli G., Ciocci F., Del Franco M., Quattromini M., Ronsivalle C., Sabia E., Spassovsky I., Surrenti V., Filippetto D., Di Pirro G., Gatti G., Bellaveglia M., Alesini D., Castellano M., Chiadroni E., Cultrera L., and Ferrario M.

Subjects
FEL, harmonics, SPARC
Published
2010

49. BEAM SLICE CHARACTERIZATION AT SPARC HIGH BRIGHTNESS PHOTOINJECTOR

Author

Marchetti, B, Cianchi, A, Alesini, D, Bellaveglia, M, Chiadroni, E, Castellano, M, Cultrera, L, Di Pirro, G, Ferrario, M, Filippetto, D, Gatti, G, Pace, E, Vaccarezza, C, Vicario, Infn/lnf, C, Ficcadenti, Fl, Mostacci, A, University La Sapienza, Ronsivalle, Rc, Frascati, Ecr, and Frascati

Subjects
Settore FIS/01 - Fisica Sperimentale, emittace, high brigthness photoinjector, high brigthness photoinjector, emittace
Published
2009

50. Recent results of the SPARC FEL experiments

Author

Ferrario, M., Alesini, D., Bellaveglia, M., Benfatto, M., Boni, R., Boscolo, M., Castellano, M., Chiadroni, E., Clozza, A., Cultrera, L., Di Pirro, G., Drago, A., Esposito, A., Ficcadenti, L., Filippetto, D., Fusco, V., Gallo, A., Gatti, G., Ghigo, A., Marinelli, A., Marcelli, A., Marrelli, C., Migliorati, Mauro, Mostacci, Andrea, Pace, E., Palumbo, Luigi, Pellegrino, L., Ricci, R., Rotundo, U., Sanelli, C., Sgamma, F., Spataro, B., Tomassini, S., Vaccarezza, C., Vescovi, M., Vicario, C., Ciocci, F., Dattoli, G., Del Franco, M., Dipace, A., Doria, A., Gallerano, G. P., Giannessi, L., Giovenale, E., Orlandi, G. L., Pagnutti, S., Petralia, A., Quattromini, M., Ronsivalle, C., Sabia, E., Spassovsky, I., Surrenti, V., Bacci, A., Boscolo, I., Broggi, F., Castelli, F., Cialdi, S., De Martinis, C., Giove, D., Maroli, C., Petrillo, V., Rossi, A. R., Serafini, L., Mattioli, M., Petrarca, Massimo, Serluca, M., Catani, L., Cianchi, A., Marchetti, B., Rosenzweig, J., Couprie, M. E., Bougeard, M., Carré, B., Garzella, D., Labat, M., Lambert, G., Merdji, H., Salières, P., Tchebakoff, O., Saclay, Cea, and Rezvani Jalal, M.

Published
2009

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