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372 results on '"Boscolo, I."'

1. Formation Of A Cold Antihydrogen Beam in AEGIS For Gravity Measurements

Author

Testera, G., Belov, A. S., Bonomi, G., Boscolo, I., Brambilla, N., Brusa, R. S., Byakov, V. M., Cabaret, L., Canali, C., Carraro, C., Castelli, F., Cialdi, S., de Combarieu, M., Comparat, D., Consolati, G., Djourelov, N., Doser, M., Drobychev, G., Dupasquier, A., Fabris, D., Ferragut, R., Ferrari, G., Fischer, A., Fontana, A., Forget, P., Formaro, L., Lunardon, M., Gervasini, A., Giammarchi, M. G., Gninenko, S. N., Gribakin, G., Heyne, R., Hogan, S. D., Kellerbauer, A., Krasnicky, D., Lagomarsino, V., Manuzio, G., Mariazzi, S., Matveev, V. A., Merkt, F., Moretto, S., Morhard, C., Nebbia, G., Nedelec, P., Oberthaler, M. K., Pari, P., Petracek, V., Prevedelli, M., Al-Qaradawi, I. Y., Quasso, F., Rohne, O., Pesente, S., Rotondi, A., Stapnes, S., Sillou, D., Stepanov, S. V., Stroke, H. H., Tino, G., Vairo, A., Viesti, G., Walters, H., Warring, U., Zavatarelli, S., Zenoni, A., and Zvezhinskij, D. S.

Subjects
Physics - Atomic Physics, General Relativity and Quantum Cosmology
Abstract

The formation of the antihydrogen beam in the AEGIS experiment through the use of inhomogeneous electric fields is discussed and simulation results including the geometry of the apparatus and realistic hypothesis about the antihydrogen initial conditions are shown. The resulting velocity distribution matches the requirements of the gravity experiment. In particular it is shown that the inhomogeneous electric fields provide radial cooling of the beam during the acceleration., Comment: Invited talk at Pbar08 - Workshop on Cold Antimatter Plasmas and Application to Fundamental Physics, Okinawa, Japan, 2008

Published
2008
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2. Apparent superluminal advancement of a single photon far beyond its coherence length

Author

Cialdi, S., Boscolo, I., Castelli, F., and Petrillo, V.

Subjects
Physics - Optics, Quantum Physics
Abstract

We present experimental results relative to superluminal propagation based on a single photon traversing an optical system, called 4f-system, which acts singularly on the photon's spectral component phases. A single photon is created by a CW laser light down{conversion process. The introduction of a linear spectral phase function will lead to the shift of the photon peak far beyond the coherence length of the photon itself (an apparent superluminal propagation of the photon). Superluminal group velocity detection is done by interferometric measurement of the temporal shifted photon with its correlated untouched reference. The observed superluminal photon propagation complies with causality. The operation of the optical system allows to enlighten the origin of the apparent superluminal photon velocity. The experiment foresees a superluminal effect with single photon wavepackets., Comment: 11 pages, 2 figures

Published
2008
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3. Efficient positronium laser excitation for antihydrogen production in a magnetic field

Author

Castelli, F., Boscolo, I., Cialdi, S., Giammarchi, M. G., and Comparat, D.

Subjects
Quantum Physics
Abstract

Antihydrogen production by charge exchange reaction between Positronium (Ps) atoms and antiprotons requires an efficient excitation of Ps atoms up to high-n levels (Rydberg levels). In this study it is assumed that a Ps cloud is produced within a relatively strong uniform magnetic field (1 Tesla) and with a relatively high temperature (100 K). Consequently, the structure of energy levels are deeply modified by Zeeman and motional Stark effects. A two-step laser light excitation, the first one from ground to n=3 and the second from this level to a Rydberg level, is proposed and the physics of the problem is discussed. We derive a simple formula giving the absorption probability with substantially incoherent laser pulses. A 30% population deposition in high-$n$ states can be reached with feasible lasers suitably tailored in power and spectral bandwidth., Comment: 18 pages, 4 figures; changed content (with erasing of section 2), adding a new figure and new references

Published
2008
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4. Measurement of the temporal response of ferroelectric cathodes

Author

Castellano, M., Ferrario, M., Tazzioli, F., Catani, L., Giannessi, L., Boscolo, I., Cialdi, S., and Valentini, M.

Subjects
Physics - Accelerator Physics
Abstract

Ferroelectric ceramics are tested as photocathodes at INFN Frascati Laboratories. In order to characterize them for use in linac injectors it is important to measure the temporal shape of the emitted current. With a duration of the laser pulse of 25 ps, the required resolution is a few ps. An apparatus has been set up for the purpose, consisting of a 30 kV electron gun, a microwave deflecting cavity which translates the temporal distribution of the electron bunch into a spatial one, a fluorescent screen on which the deflected beam traces a sector of a circle and various focusing and charge measuring items. The image on the screen is detected via a CCD camera and a frame grabber. We describe the performance of the apparatus and some preliminary temporal distribution measurements., Comment: 3 pages, 6 figures

Published
2000

9. The AEGIS detection system for gravity measurements

Author

Fabris, D., Belov, A.S., Bonomi, G., Boscolo, I., Brambilla, N., Brusa, R.S., Byakov, V.M., Cabaret, L., Canali, C., Carraro, C., Castelli, F., Cialdi, S., Comparat, D., Consolati, G., Dassa, L., Djourelov, N., Doser, M., Drobychev, G., Dudarev, A., Dupasquier, A., Ferragut, R., Ferrari, G., Fischer, A., Folegati, P., Fontana, A., Formaro, L., Lunardon, M., Gervasini, A., Giammarchi, M.G., Gninenko, S.N., Heyne, R., Hogan, S.D., Jørgensen, L.V., Kellerbauer, A., Krasnicky, D., Lagomarsino, V., Leveraro, F., Manuzio, G., Mariazzi, S., Matveev, V.A., Merkt, F., Moretto, S., Morhard, C., Nebbia, G., Nedelec, P., Oberthaler, M.K., Perini, D., Petracek, V., Prevedelli, M., Al-Qaradawi, I.Y., Quasso, F., Riccardi, C., Rohne, O., Pesente, S., Rotondi, A., Spacek, M., Stapnes, S., Sillou, D., Stepanov, S.V., Stroke, H.H., Testera, G., Tino, G., Trezzi, D., Turbabin, A.V., Vaccarone, R., Vairo, A., Viesti, G., Walters, H., Warring, U., Zavatarelli, S., Zenoni, A., and Zvezhinskij, D.S.

Published
2010
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10. Proposed antimatter gravity measurement with an antihydrogen beam

Author

Kellerbauer, A., Amoretti, M., Belov, A.S., Bonomi, G., Boscolo, I., Brusa, R.S., Büchner, M., Byakov, V.M., Cabaret, L., Canali, C., Carraro, C., Castelli, F., Cialdi, S., de Combarieu, M., Comparat, D., Consolati, G., Djourelov, N., Doser, M., Drobychev, G., Dupasquier, A., Ferrari, G., Forget, P., Formaro, L., Gervasini, A., Giammarchi, M.G., Gninenko, S.N., Gribakin, G., Hogan, S.D., Jacquey, M., Lagomarsino, V., Manuzio, G., Mariazzi, S., Matveev, V.A., Meier, J.O., Merkt, F., Nedelec, P., Oberthaler, M.K., Pari, P., Prevedelli, M., Quasso, F., Rotondi, A., Sillou, D., Stepanov, S.V., Stroke, H.H., Testera, G., Tino, G.M., Trénec, G., Vairo, A., Vigué, J., Walters, H., Warring, U., Zavatarelli, S., and Zvezhinskij, D.S.

Published
2008
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16. Dielectric-spontaneous polarization versus emission in perovskite cathode

Author

Boscolo, I. and Cialdi, S.

Subjects
Polarization (Electricity) -- Analysis, Cathodes -- Research, Perovskite -- Electric properties, Physics
Abstract

The correlation between the emission of energetic electrons and the polarization change obtained experimentally is presented. The relatively long decay time leads to a freezing of screening electrons and consequently to a low emission level.

Published
2002

19. Ion source improvement by electron injection from ferroelectric cathode

Author

Boscolo, I., Cialdi, S., Valentini, M., Gammino, S., Ciavola, G., Celona, L., Marletta, S., Riege, H., and Handerek, J.

Subjects
Cyclotron resonance -- Research, Ferroelectric devices -- Research, Physics -- Research, Physics
Abstract

Research describing electron cyclotron resonance ion sources is presented. In particular the effects of direct electron injection by means of a ferroelectric ceramic cathode are investigated.

Published
2001

21. Electron emission from ferroelectric ceramics with a special design patterned front electrode

Author

Boscolo, I., Scurati, A., and Stellato, M.

Subjects
Electron-electron interactions -- Research, Ferroelectric crystals -- Research, Solid state physics -- Research, Electrons -- Emission, Physics
Abstract

Researchers conducted an experiment utilizing a ceramic dick to investigate the behavior and causes of electron emission and surface electrodes. Fast aging processes that take place in the standard grating electrode can lead to a frozen state of spontaneous polarization and segregation of polarization switching, and finally, to a screening of the domains of the uncovered area of the surface. Electron emission was found to be erratic since the function of samples decayed with shot number.

Published
1999

24. Status of the SPARC project

Author

Alesini, D., primary, Bertolucci, S., additional, Biaginf, M.E., additional, Biscari, C., additional, Boni, R., additional, Boscolo, M., additional, Castellano, M., additional, Clozza, A., additional, Pirro, G.Di, additional, Drago, A., additional, Esposito, A., additional, Ferrario, M., additional, Fusco, V., additional, Gallo, A., additional, Ghigo, A., additional, Guiducci, S., additional, Incurvati, M., additional, Ligi, C., additional, Marcellini, F., additional, Migliorati, M., additional, Milardi, C., additional, Mostacci, A., additional, Palumbo, L., additional, Pellegrino, L., additional, Preger, M., additional, Raimondi, P., additional, Ricci, R., additional, Sanelli, C., additional, Serio, M., additional, Sgamma, F., additional, Spataro, B., additional, Stecchi, A., additional, Stella, A., additional, Tazzioli, F., additional, Vaccarezza, C., additional, Vescovi, M., additional, Vicario, C., additional, Zobov, M., additional, Alessandria, F., additional, Bacci, A., additional, Boscolo, I., additional, Broggi, F., additional, Cialdi, S., additional, DeMartinis, C., additional, Giove, D., additional, Maroli, C., additional, Mauri, M., additional, Petrillo, V., additional, Romé, M., additional, Serafini, L., additional, Levi, D., additional, Mattioli, M., additional, Medici, G., additional, Catani, L., additional, Chiadroni, E., additional, Tazzari, S., additional, Bartolini, R., additional, Ciocci, F., additional, Dattoli, G., additional, Doria, A., additional, Flora, F., additional, Gallerano, G.P., additional, Giannessi, L., additional, Giovenale, E., additional, Messina, G., additional, Mezi, L., additional, Ottaviani, P.L., additional, Pagnutti, S., additional, Picardi, L., additional, Quattromini, M., additional, Renieri, A., additional, Ronsivalle, C., additional, Cianchi, A., additional, Angelo, A.D., additional, Salvo, R.Di, additional, Fantini, A., additional, Moricciani, D., additional, Schaerf, C., additional, and Rosenzweig, J.B., additional

Published
2004
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25. The SPARC project: a high-brightness electron beam source at LNF to drive a SASE-FEL experiment

Author

Alesini, D., primary, Bertolucci, S., additional, Biagini, M.E., additional, Biscari, C., additional, Boni, R., additional, Boscolo, M., additional, Castellano, M., additional, Clozza, A., additional, Di Pirro, G., additional, Drago, A., additional, Esposito, A., additional, Ferrario, M., additional, Fusco, V., additional, Gallo, A., additional, Ghigo, A., additional, Guiducci, S., additional, Incurvati, M., additional, Laurelli, P., additional, Ligi, C., additional, Marcellini, F., additional, Migliorati, M., additional, Milardi, C., additional, Palumbo, L., additional, Pellegrino, L., additional, Preger, M., additional, Raimondi, P., additional, Ricci, R., additional, Sanelli, C., additional, Sgamma, F., additional, Spataro, B., additional, Serio, M., additional, Stecchi, A., additional, Stella, A., additional, Tazzioli, F., additional, Vaccarezza, C., additional, Vescovi, M., additional, Vicario, C., additional, Zobov, M., additional, Acerbi, E., additional, Alessandria, F., additional, Barni, D., additional, Bellomo, G., additional, Boscolo, I., additional, Broggi, F., additional, Cialdi, S., additional, DeMartinis, C., additional, Giove, D., additional, Maroli, C., additional, Petrillo, V., additional, Rome, M., additional, Serafini, L., additional, Chiadroni, E., additional, Felici, G., additional, Levi, D., additional, Mastrucci, M., additional, Mattioli, M., additional, Medici, G., additional, Petrarca, G.S., additional, Catani, L., additional, Cianchi, A., additional, ’Angelo, A. D, additional, Di Salvo, R., additional, Fantini, A., additional, Moricciani, D., additional, Schaerf, C., additional, Bartolini, R., additional, Ciocci, F., additional, Dattoli, G., additional, Doria, A., additional, Flora, F., additional, Gallerano, G.P., additional, Giannessi, L., additional, Giovenale, E., additional, Messina, G., additional, Mezi, L., additional, Ottaviani, P.L., additional, Picardi, L., additional, Quattromini, M., additional, Renieri, A., additional, Ronsivalle, C., additional, Avaldi, L., additional, Carbone, C., additional, Cricenti, A., additional, Pifferi, A., additional, Perfetti, P., additional, Prosperi, T., additional, Rossi Albertini, V., additional, Quaresima, C., additional, and Zema, N., additional

Published
2003
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26. Conceptual design of a high-brightness linac for soft X-ray SASE-FEL source

Author

Alesini, D., primary, Bertolucci, S., additional, Biagini, M.E., additional, Biscari, C., additional, Boni, R., additional, Boscolo, M., additional, Castellano, M., additional, Clozza, A., additional, Pirro, G. Di, additional, Drago, A., additional, Esposito, A., additional, Ferrario, M., additional, Fusco, V., additional, Gallo, A., additional, Ghigo, A., additional, Guiducci, S., additional, Incurvati, M., additional, Laurelli, P., additional, Ligi, C., additional, Marcellini, F., additional, Migliorati, M., additional, Milardi, C., additional, Palumbo, L., additional, Pellegrino, L., additional, Preger, M., additional, Raimondi, P., additional, Ricci, R., additional, Sanelli, C., additional, Sgamma, F., additional, Spataro, B., additional, Serio, M., additional, Stecchi, A., additional, Stella, A., additional, Tazzioli, F., additional, Vaccarezza, C., additional, Vescovi, M., additional, Vicario, C., additional, Zobov, M., additional, Acerbi, E., additional, Alessandria, F., additional, Barni, D., additional, Bellomo, G., additional, Birattari, C., additional, Bonardi, M., additional, Boscolo, I., additional, Bosotti, A., additional, Broggi, F., additional, Cialdi, S., additional, DeMartinis, C., additional, Giove, D., additional, Maroli, C., additional, Michelato, P., additional, Monaco, L., additional, Pagani, C., additional, Petrillo, V., additional, Pierini, P., additional, Serafini, L., additional, Sertore, D., additional, Volpini, G., additional, Chiadroni, E., additional, Felici, G., additional, Levi, D., additional, Mastrucci, M., additional, Mattioli, M., additional, Medici, G., additional, Petrarca, G.S., additional, Catani, L., additional, Cianchi, A., additional, D’Angelo, A., additional, Salvo, R. Di, additional, Fantini, A., additional, Moricciani, D., additional, Schaerf, C., additional, Bartolini, R., additional, Ciocci, F., additional, Dattoli, G., additional, Doria, A., additional, Flora, F., additional, Gallerano, G.P., additional, Giannessi, L., additional, Giovenale, E., additional, Messina, G., additional, Mezi, L., additional, Ottaviani, P.L., additional, Picardi, L., additional, Quattromini, M., additional, Renieri, A., additional, Ronsivalle, C., additional, Avaldi, L., additional, Carbone, C., additional, Cricenti, A., additional, Pifferi, A., additional, Perfetti, P., additional, Prosperi, T., additional, Albertini, V. Rossi, additional, Quaresima, C., additional, and Zema, N., additional

Published
2003
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27. Features and technology of ferroelectric electron emission

Author

Riege, H., Boscolo, I., Handerek, J., and Herleb, U.

Subjects
Ferroelectric devices -- Research, Ferroelectric crystals -- Research, Physics
Abstract

Spontaneous electrical polarization of ferroelectrics can be modified either by reversal or through phase transition from a ferroelectric into a nonpolar state or vice versa. Strong uncompensated surface charge densities and related fields are produced when spontaneous polarization changes are induced at a submicrosecond time scale. This may lead to the intense self-emission of electrons from the negatively charged free surface areas of the ferroelectride cathode.

Published
1998

28. Correlation between emitted and polarization current in ferroelectric lead lanthanum zirconate titanate ceramics

Author

Benedek, G., Boscolo, I., Moscatelli, A., Scurati, A., and Handerek, J.

Subjects
Electrons -- Emission, Ceramic superconductors -- Research, Ferroelectric devices -- Research, Physics
Abstract

Research was conducted to study the emission of electrons from lead lanthanum zirconate titanate ceramics after excitation by a rectangular high voltage electric pulse using the switching and relax-back of the spontaneous polarization. The metallic strip was separated by an equal distance and held to the rear post with a Pierce design. Results suggested that the state of the surface layer is fundamental for obtaining a good switching current and vacuum emission.

Published
1998

31. Status of the SPARC project

Author

Alesini, D, Bertolucci, S, Biagini, M.E, Biscari, C, Boni, R, Boscolo, M, Castellano, M, Clozza, A, Di Pirro, G, Drago, A, Esposito, A, Ferrario, M, Fusco, V, Gallo, A, Ghigo, A, Guiducci, S, Incurvati, M, Ligi, C, Marcellini, F, Migliorati, M, Milardi, C, Mostacci, A, Palumbo, L, Pellegrino, L, Preger, M, Raimondi, P, Ricci, R, Sanelli, C, Serio, M, Sgamma, F, Spataro, B, Stecchi, A, Stella, A, Tazzioli, F, Vaccarezza, C, Vescovi, M, Vicario, C, Zobov, M, Alessandria, F, Bacci, A, Boscolo, I, Broggi, F, Cialdi, S, DeMartinis, C, Giove, D, Maroli, C, Mauri, M, Petrillo, V, Romè, M, Serafini, L, Levi, D, Mattioli, M, Medici, G, Catani, L, Chiadroni, E, Tazzari, S, Bartolini, R, Ciocci, F, Dattoli, G, Doria, A, Flora, F, Gallerano, G.P, Giannessi, L, Giovenale, E, Messina, G, Mezi, L, Ottaviani, P.L, Pagnutti, S, Picardi, L, Quattromini, M, Renieri, A, Ronsivalle, C, Cianchi, A, Angelo, A.D, Di Salvo, R, Fantini, A, Moricciani, D, Schaerf, C, and Rosenzweig, J.B

Published
2004
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34. Preliminary observation of electron emission from ferroelectric ceramics excited by a 532 nm −30 picosecond laser pulse

Author

Boscolo, I., primary, Castellano, C., additional, Catani, L., additional, Ciocci, F., additional, Doria, A., additional, Ferrario, M., additional, Gallerano, G.P., additional, Giannessi, L., additional, Giovenale, E., additional, Mezi, L., additional, Patteri, P., additional, Porcari, A., additional, Tazzioli, F., additional, and Handerek, J., additional

Published
1998
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35. The SPARC project: a high-brightness electron beam source at LNF to drive a SASE-FEL experiment

Author

Alesini, D., Bertolucci, S., Biagini, M.E., Biscari, C., Boni, R., Boscolo, M., Castellano, M., Clozza, A., Di Pirro, G., Drago, A., Esposito, A., Ferrario, M., Fusco, V., Gallo, A., Ghigo, A., Guiducci, S., Incurvati, M., Laurelli, P., Ligi, C., Marcellini, F., Migliorati, M., Milardi, C., Palumbo, L., Pellegrino, L., Preger, M., Raimondi, P., Ricci, R., Sanelli, C., Sgamma, F., Spataro, B., Serio, M., Stecchi, A., Stella, A., Tazzioli, F., Vaccarezza, C., Vescovi, M., Vicario, C., Zobov, M., Acerbi, E., Alessandria, F., Barni, D., Bellomo, G., Boscolo, I., Broggi, F., Cialdi, S., DeMartinis, C., Giove, D., Maroli, C., Petrillo, V., Rome’, M., Serafini, L., Chiadroni, E., Felici, G., Levi, D., Mastrucci, M., Mattioli, M., Medici, G., Petrarca, G.S., Catani, L., Cianchi, A., D’Angelo, A., Di Salvo, R., Fantini, A., Moricciani, D., Schaerf, C., Bartolini, R., Ciocci, F., Dattoli, G., Doria, A., Flora, F., Gallerano, G.P., Giannessi, L., Giovenale, E., Messina, G., Mezi, L., Ottaviani, P.L., Picardi, L., Quattromini, M., Renieri, A., Ronsivalle, C., Avaldi, L., Carbone, C., Cricenti, A., Pifferi, A., Perfetti, P., Prosperi, T., Albertini, V.Rossi, Quaresima, C., and Zema, N.

Published
2003
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36. Conceptual design of a high-brightness linac for soft X-ray SASE-FEL source

Author

Alesini, D., Bertolucci, S., Biagini, M.E., Biscari, C., Boni, R., Boscolo, M., Castellano, M., Clozza, A., Pirro, G.Di, Drago, A., Esposito, A., Ferrario, M., Fusco, V., Gallo, A., Ghigo, A., Guiducci, S., Incurvati, M., Laurelli, P., Ligi, C., Marcellini, F., Migliorati, M., Milardi, C., Palumbo, L., Pellegrino, L., Preger, M., Raimondi, P., Ricci, R., Sanelli, C., Sgamma, F., Spataro, B., Serio, M., Stecchi, A., Stella, A., Tazzioli, F., Vaccarezza, C., Vescovi, M., Vicario, C., Zobov, M., Acerbi, E., Alessandria, F., Barni, D., Bellomo, G., Birattari, C., Bonardi, M., Boscolo, I., Bosotti, A., Broggi, F., Cialdi, S., DeMartinis, C., Giove, D., Maroli, C., Michelato, P., Monaco, L., Pagani, C., Petrillo, V., Pierini, P., Serafini, L., Sertore, D., Volpini, G., Chiadroni, E., Felici, G., Levi, D., Mastrucci, M., Mattioli, M., Medici, G., Petrarca, G.S., Catani, L., Cianchi, A., D’Angelo, A., Salvo, R.Di, Fantini, A., Moricciani, D., Schaerf, C., Bartolini, R., Ciocci, F., Dattoli, G., Doria, A., Flora, F., Gallerano, G.P., Giannessi, L., Giovenale, E., Messina, G., Mezi, L., Ottaviani, P.L., Picardi, L., Quattromini, M., Renieri, A., Ronsivalle, C., Avaldi, L., Carbone, C., Cricenti, A., Pifferi, A., Perfetti, P., Prosperi, T., Albertini, V.Rossi, Quaresima, C., and Zema, N.

Published
2003
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40. Dielectric-spontaneous polarization versus electron emission in perovskite cathodes.

Author

Boscolo, I. and Cialdi, S.

Subjects
*CATHODES, *PEROVSKITE, *INDUCED polarization
Abstract

Strong electron emission in ferroelectric cathodes requires Past polarization change. We present the correlation between the emission of energetic electrons and the polarization change obtained experimentally. The shape of the emitted current pulse and its level depend on the amplitude and the rate of the polarization variation. The polarization variation showed a Past and a slow component, related to fast and slow nanodomain relaxation time respectively: The slow rate polarization of the relaxor samples used in our tests showed a relaxation time of a few microseconds. The emission in presence of the sole fast polarization naturally depends on the exciting pulse characteristics. The emission in presence of also the slow polarization depends strongly on the relaxation dynamics: The relatively long decay time leads to a freezing of screening electrons and consequently to a low emission level. [ABSTRACT FROM AUTHOR]

Published
2002
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41. Polarizability model of emission from ceramic cathodes.

Author

Boscolo, I. and Cialdi, S.

Subjects
*POLARIZATION (Electricity), *ELECTRIC fields
Abstract

We show that properly electroded ceramic disks are strong and robust electron emitters when excited with short voltage pulses. They can operate in two different regimes: (I) a regime at low exciting voltage, ∼0.7 kV per millimeter thickness and (II) a regime at high exciting voltage, ∼2 kV/mm. In the first regime the excitation pulse must be bipolar, positive–negative, the output current results in several tens of milliamperes per cm[sup 2]. The first positive semiwave charges the cathode surface and the negative semiwave expels the previously accumulated electrons. This behavior of ceramic electroded disks, before as sink and next as source of electrons, is due to the succession of an attractive and then repulsive electron field on the unelectroded zones of the front surface. The two opposite oriented fields are generated by the voltage applied at the rear electrode. In the second regime, the excitation pulse can be either monopolar or bipolar, the emission process is governed by the building up of a plasma sheet as a consequence of the excitation pulse. The high-voltage exciting pulse initiates a discharge, and so the plasma, at the triple metal–insulator–vacuum point because of the strong longitudinal component of the electric field. The plasma cloud expands over the front surface becoming a dynamical electrode. Screening electrons accumulate in front of the sample, either in the plasma sheet or on the front surface of the material. The component of the electric field perpendicular to the surface (due to either the negative semiwave of a bipolar pulse or to the space charge of the huge amount of electrons no longer attracted by bound positive charge) pushes screening electrons out from the cathode. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2002
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42. Operation of ceramic cathodes with bipolar pulse excitation.

Author

Boscolo, I. and Cialdi, S.

Subjects
*CATHODES, *FERROELECTRIC devices, *ELECTRONIC excitation
Abstract

The emission from ferroelectric cathodes excited by bipolar pulses does not suffer the hysteretic behavior shown with monopolar pulse excitation. This is because the bipolar pulse forces a neat charging-discharging cycle of the whole surface of the sample, and, therefore, the flipping of the polarization. The emission becomes definitely stable, whereas it was erratic in current amplitude, pulse shape and starting time with monopolar excitation. The emission yield of energetic electrons from ferroelectric cathodes of doped lead-titanate-zirconate-lanthanum increased from a few hundreds of milliamperes to some amperes (with current density of 30–50 A/cm²) in passing from monopolar to bipolar voltage pulse excitation. [ABSTRACT FROM AUTHOR]

Published
2001
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43. Effects of prepoling and polarization on photoemission from ferroelectric ceramics.

Author

Boscolo, I., Cialdi, S., Tazzioli, F., Catani, L., and Giannessi, L.

Subjects
*CERAMICS, *POLARIZATION (Nuclear physics), *PHOTOEMISSION
Abstract

We describe the photoemission of lanthanum-doped lead zirconate titanate when illuminated with 355 nm radiation, with/without prepoling and with/without the application of a polarizing field. To explain the different behaviors observed, we propose a physical picture based on the defects moving toward the surface and the donor electrons squeezing into a very thin layer at the surface. The model and the experimental results indicate that ferroelectric ceramics could become interesting photoemitters. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2001
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44. L'esperienza di IDIFO nel PLS-Fisica: esiti e prospettive

Author

Altamore, A., Angelini, L., Bochicchio, M., Longo, A., Bonanno, A., Boscolo, I., Buderi, I., Corni, F., De Ambrosis, A., Della Torre, S., Fabbri, F. L., Fazio, C., Mineo, S., Rosa, M., Fera, G., Gambi, C., Straulino, S., Giliberti, M. A., Guerra, F., Leone, M., Levrini, O., Marcolini, L., Marzoli, Irene, Maurizio, R., Michelini, M., Montalbano, V., Mossenta, A., Oss, S., Pauletta, G., Peressi, M., Pugliese, E., Robotti, N., Rossi, P. G., Magnoler, P., Santi, L., Serio, C., Stefanel, A., Vacchi, A., Vercellati, S., Vidic, E., and Zuccarini, G.

Published
2016

45. Efficient Rydberg positronium laser excitation for antihydrogen production in a magnetic field

Author

Giammarchi, M. G., Belov, A. S., Bonomi, G., Boscolo, I., Brambilla, N., Brusa, R. S., Byakov, V. M., Cabaret, L., Canali, C., Carraro, C., Castelli, F., Cialdi, S., De Combarieu, M., Comparat, D., Consolati, Giovanni, Djourelov, N., Doser, M., Drobychev, G., Dupasquier, Alfredo, Fabris, F., Ferragut, RAFAEL OMAR, Ferrari, G., Fischer, A., Fontana, A., Forget, P., Formaro, L., Lunardon, M., Gervasini, A., Gninenko, S. N., Gribakin, G., Heyne, R., Kellerbauer, A., Krasnicky, D., Lagomarsino, V., Manuzio, G., Mariazzi, S., Matveev, V. A., Moretto, S., Morhard, C., Nebbia, G., Nedelec, P., Oberthaler, M. K., Pari, P., Petracek, V., Prevedelli, M., Al qaradawi, I. Y., Quasso, Fiorenza, Rohne, O., Pesente, S., Rotondi, A., Stapnes, S., Sillou, D., Stepanov, S. V., Stroke, H. H., Testera, G., Tino, G. M., Vairo, A., Viesti, G., Villa, F., Walters, H., Warring, U., Zavatarelli, S., Zenoni, A., and Zvezhinskij, D. S.

Subjects
Physics, Nuclear and High Energy Physics, education.field_of_study, Population, Condensed Matter Physics, Laser, Atomic and Molecular Physics, and Optics, Positronium, law.invention, symbols.namesake, law, Excited state, Atom, Rydberg formula, symbols, Physics::Atomic Physics, Physical and Theoretical Chemistry, Atomic physics, Antihydrogen, education, Excitation
Abstract

Antihydrogen production by charge exchange reaction between positronium (Ps) and antiprotons requires an efficient excitation of Ps atoms up to high-n levels (Rydberg levels). We propose a two-step laser light excitation, the first from ground to n = 3 and the second from this level to a Rydberg level n > 15. In this study it is assumed that a Ps cloud is produced by positrons hitting a target converter located in a Penning-Malmberg trap within a uniform ~ 1 T magnetic field. We model the optical transition structure by taking into account Doppler and motional Stark effects. The predicted efficiency for population deposition in high n states is of ~30%.

Published
2009

46. Electron mission from ferroelastic ceramics with a special design patterned front electrode.

Author

Boscolo, I. and Scurati, A.

Subjects
*ELECTRONS, *ELECTRODES
Abstract

Studies the electron mission from a ceramic disk due to spontaneous polarization switching induced by a high-voltage pulse applied to the surface electrodes. Research background; Discussion of the results with interconnected grating as electrode; Results with a pattern of metallic islands as electrode; Discussion; Conclusions.

Published
1999
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48. The classical theory of the transverse optical klystron for a nonmonoenergetic beam.

Author

Boscolo, I., Leo, M., Leo, R. A., Soliani, G., Stagno, V., and Pellegrini, C.

Subjects
*KLYSTRONS, *ELECTRON beams, *FREE electron lasers, *ELECTRICAL harmonics, *THOMSON scattering
Abstract

Presents the classical theory of transverse optical klystron (TOK) for a nonmonoenergetic beam. Electron beam and free electron laser (FEL) parameters of Brookhaven FEL; Evolution of the first three harmonics in the TOK; Conservation laws of the momentum and of photon number in a stimulated Thomson scattering.

Published
1985
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49. Conceptual Design of a Soft X-ray SASE-FEL Source

Author

LEVI, Decio, ALESINI D., BERTOLUCCI S., BIAGINI M. E., BISCARI C., BONI R., BOSCOLO M., CASTELLANO M., CLOZZA A., DI PIRRO G., DRAGO A., ESPOSITO A., FERRARIO M., FUSCO V., GALLO A., GHIGO A., GUIDUCCI S., INCURVATI M., LAURELLI P., LIGI C., MARCELLINI F., MIGLIORATI M., MILARDI C., PALUMBO L., PELLEGRINO L., PREGER M., RAIMONDI P., RICCI R., SANELLI C., SGAMMA F., SPATARO B., SERIO M., STECCHI A., STELLA A., TAZZIOLI F., VACCAREZZA C., VESCOVI M., VICARIO C., ZOBOV M., ACERBI E., ALESSANDRIA F., BARNI D., BELLOMO G., BIRATTARI C., BONARDI M., BOSCOLO I., BOSOTTI, A., BROGGI, F., CIALDI, S., DE MARTINIS, GIOVE D., MAROLI C., MICHELATO P., MONACO L., PAGANI C., PETRILLO V., PIERINI P., SERAFINI L., SERTORE D., VOLPINI G., CHIADRONI E., FELICI G., MASTRUCCI M., MATTIOLI M., MEDICI G., PETRARCA G. S., CATANI L., CIANCHI A., D'ANGELO A., DI SALVO R., FANTINI A., MORICCIANI D., SCHAERF C., BARTOLINI R., CIOCCI F., DATTOLI G., DORIA A., FLORA F., GALLERANO G. P., GIANNESSI L., GIOVENALE E., MESSINA G., MEZI L., OTTAVIANI P. L., PICARDI L., QUATTROMINI M., RENIERI A., RONSIVALLE C., AVALDI L., CARBONE C., CRICENTI A., PIFFERI A., PERFETTI P., PROSPERI T., ROSSI ALBERTINI V., QUARESIMA C., ZEMA N., Levi, Decio, Alesini, D., Bertolucci, S., Biagini, M. E., Biscari, C., Boni, R., Boscolo, M., Castellano, M., Clozza, A., DI PIRRO, G., Drago, A., Esposito, A., Ferrario, M., Fusco, V., Gallo, A., Ghigo, A., Guiducci, S., Incurvati, M., Laurelli, P., Ligi, C., Marcellini, F., Migliorati, M., Milardi, C., Palumbo, L., Pellegrino, L., Preger, M., Raimondi, P., Ricci, R., Sanelli, C., Sgamma, F., Spataro, B., Serio, M., Stecchi, A., Stella, A., Tazzioli, F., Vaccarezza, C., Vescovi, M., Vicario, C., Zobov, M., Acerbi, E., Alessandria, F., Barni, D., Bellomo, G., Birattari, C., Bonardi, M., Boscolo, I., Bosotti, A., Broggi, F., Cialdi, S., De, Martini, Giove, D., Maroli, C., Michelato, P., Monaco, L., Pagani, C., Petrillo, V., Pierini, P., Serafini, L., Sertore, D., Volpini, G., Chiadroni, E., Felici, G., Mastrucci, M., Mattioli, M., Medici, G., Petrarca, G. S., Catani, L., Cianchi, A., D'Angelo, A., DI SALVO, R., Fantini, A., Moricciani, D., Schaerf, C., Bartolini, R., Ciocci, F., Dattoli, G., Doria, A., Flora, F., Gallerano, G. P., Giannessi, L., Giovenale, E., Messina, G., Mezi, L., Ottaviani, P. L., Picardi, L., Quattromini, M., Renieri, A., Ronsivalle, C., Avaldi, L., Carbone, C., Cricenti, A., Pifferi, A., Perfetti, P., Prosperi, T., ROSSI ALBERTINI, V., Quaresima, C., and Zema, N.

Published
2003

50. High density electron beam for gamma-ray compton sources (orale)

Author

Vaccarezza, C., Adriani, O., Albergo, S., Alesini, D., Anania, M., Bacci, A., Bedogni, R., Bellaveglia, M., Biscari, C., Boni, R., Boscolo, I., Boscolo, M., Broggi, F., Cardarelli, P., Castellano, M., Catani, L., Chiadroni, E., Cianchi, A., Curatolo, C., De Martinis, C., Di Domenico, G., Dipasquale, E., Dipirro, G., Drago, A., Esposito, A., Gallo, A., Gambaccini, M., Gatti, G., Ghigo, A., Graziani, G., Marcellini, F., Maroli, C., Marziani, M., Pace, E., Passaleva, G., Pellegrino, L., Petrillo, V., Pompili, R., Ricci, R., R. Rossi, ., Serio, M., Serafini, L., Sgamma, F., Spataro, B., Stecchi, A., Stella, A., Tomassini, Pascale, Tricomi, A., Veltri, M., Vescovi, S., Villa, F., Antici, P., Coppola, M., Iarocci, E., Lancia, L., Mostacci, A., Migliorati, M., Nardone, V., Palumbo, L., Chaickovska, I., Dadoun, O., Druon, Frédéric, Fichot, P., Georges, Patrick, Mueller, A., Stocchi, A., Variola, A., Zomer, F., Angal-Kalinin, D., Bliss, N., Clarke, J., Fell, B., Goulden, A., Herbert, J., Jamison, S., Martlew, B., Mcintosh, P., Smith, R., Smith, S., Laboratori Nazionali di Frascati (LNF), Istituto Nazionale di Fisica Nucleare (INFN), Istituto Nazionale di Fisica Nucleare, Sezione di Milano (INFN), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Laboratoire Charles Fabry / Lasers, Laboratoire Charles Fabry (LCF), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)-Institut d'Optique Graduate School (IOGS)-Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)-Institut d'Optique Graduate School (IOGS), Dept. Accelerateurs, and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects
[PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph]
Abstract

SCK-CEN (2014) - ISBN: 978-1-62993-828-8; International audience

Published
2013

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