Your search keyword '"G. Pignatel"' showing total 21 results

1. A modular prototype detector for scintimammography imaging

Author

L. STEBEL, CAUTERO, GIUSEPPE, N. CIRULLI, G. PIGNATEL, C. MARZOCCA, A. TAURO, A. DRAGONE, F. CORSI, G. DALLA BETTA, A. FAZZI, V. VAROLI, F. CUSANNO, F. GARIBALDI, CARRATO, SERGIO, IEEE, L., Stebel, Carrato, Sergio, Cautero, Giuseppe, N., Cirulli, G., Pignatel, C., Marzocca, A., Tauro, A., Dragone, F., Corsi, G., DALLA BETTA, A., Fazzi, V., Varoli, F., Cusanno, and F., Garibaldi

Subjects

Scintimammography Imaging

Published

2005

2. Coulomb gap measurement in non-compensated Si:As

Author

S Sanguinetti, G Pignatel, Pignatel, G, and Sanguinetti, S

Subjects

Silicon, Condensed matter physics, Chemistry, Band gap, Doping, Semiconductor, Atmospheric temperature range, Condensed Matter Physics, Molecular electronic transition, Ion implantation, Electrical resistivity and conductivity, Metal-Insulator Transition, Coulomb, Density of states, Condensed Matter::Strongly Correlated Electrons, General Materials Science, FIS/03 - FISICA DELLA MATERIA

Abstract

We report resistivity measurements in the temperature range 0.15-1.2 K Performed on non-compensated Si:As samples doped by ion implantation on the insulating side of the metal-insulator transition. The data show a crossover of the variable-range-hopping (VRH) resistivity dependence rho(T) from rho is-proportional-to exp(T1/4/T)1/4 (Mott VRH predicted behaviour) to rho is-proportional-to exp(T1/2/T)1/2, which demonstrates the persistence of a Coulomb pp in the density of states even in the vicinity of the critical concentration. The simultaneous observation of the T1/4 and T1/2 parameters allows the determination of the effective size of the pp.

Published

1993

3. Dopant Activation, Carrier Mobility, and TEM Studies in Polycrystalline Silicon Films

Author

Stefano Frabboni, L. Baldi, G. Pignatel, Franco Corticelli, Aldo Armigliato, E. Servida, and G. Queirolo

Subjects

polysilicon layers, Electron mobility, Materials science, Renewable Energy, Sustainability and the Environment, business.industry, Nanocrystalline silicon, transmission electron microscopy, Dopant Activation, engineering.material, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Monocrystalline silicon, Polycrystalline silicon, Transmission electron microscopy, Materials Chemistry, Electrochemistry, engineering, Optoelectronics, business

Published

1990

4. LOW-POWER SILICON MICROHEATERS ON A THIN DIELECTRIC MEMBRANE WITH THICK-FILM SENSING LAYER FOR GAS SENSOR APPLICATIONS

Author

Marco Stefancich, Alexei Vasiliev, Maria Cristina Carotta, Flavio Giacomozzi, A. V. Pisliakov, Benno Margesin, Maria Angela Butturi, G. Soncini, S. Brida, Donato Vincenzi, Mario Zen, G. Pignatel, V. Guarnieri, and Giuliano Martinelli

Subjects

Materials science, Silicon, chemistry, Dielectric membrane, business.industry, Optoelectronics, chemistry.chemical_element, business, Layer (electronics), Power (physics)

Published

2001

5. Anomalous Conductivity and Electron-coupling-constant Scaling In Metallic Phosphorus-doped Silicon

Author

G Pignatel, S Sanguinetti, Sanguinetti, S, and Pignatel, G

Subjects

Coupling constant, Silicon, Materials science, Condensed matter physics, Doping, chemistry.chemical_element, Electron, Semiconductor, Conductivity, Metal, chemistry, visual_art, Metal-Insulator Transition, visual_art.visual_art_medium, Scaling, FIS/03 - FISICA DELLA MATERIA

Abstract

We present low-temperature resistivity measurements, carried out in the temperature range 100400 mK on uncompensated Si:P samples doped by ion implantation in the just-metallic side of the metal-insulator transition. As the dopant concentration increases the experimental data confirm the presence of the change of sign in the T -dependent correction to the conductivity, with a cusplike behavior of the critical prefactor. However, the sign transition is followed by the turning on of an anomalous temperature contribution. We analyze both features in terms of renormalization of electron-electron interaction effects and show that in Si:P the effective-electron-coupling constant has a sizable enhancement both with doping and temperature. © 1995 The American Physical Society.

Published

1995

6. ChemInform Abstract: Dopant Activation, Carrier Mobility, and TEM Studies in Polycrystalline Silicon Films

Author

G. Pignatel, Aldo Armigliato, G. Queirolo, E. Servida, L. Baldi, Franco Corticelli, and Stefano Frabboni

Subjects

Electron mobility, Polycrystalline silicon, business.industry, Chemistry, engineering, Optoelectronics, General Medicine, Dopant Activation, engineering.material, business

Published

1990

7. Impurity effects in molybdenum silicide formation

Author

P. Cantoni, Filippo Nava, G. Ferla, P. Cappelletti, G. Pignatel, F. Mori, and G. Majni

Subjects

Materials science, Silicon, Inorganic chemistry, Metals and Alloys, Analytical chemistry, chemistry.chemical_element, Surfaces and Interfaces, Activation energy, Atmospheric temperature range, Oxygen, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Impurity, Molybdenum, Silicide, Materials Chemistry, Thin film

Abstract

The reaction between molybdenum thin films and single-crystal Si〈111〉 substrates was studied as a function of the concentrations of impurities (mainly oxygen) in the metal film. At a low oxygen concent (1–2 at.%), only the silicide phase MoSi 2 was observed, and a thickness proportional to the square root of time corresponding to an average activation energy of 3 eV in the temperature range 545–600 °C was found. During the formation of the silicide the oxygen originally present in the molybdenum films accumulates at the interface between the silicon and the MoSi 2 . In contrast, a higher oxygen content (4–5 at.%) prevents the formation of any silicide phases in the above temperature range and leads to the formation of MoSi 2 and Mo 5 Si 3 phases at temperatures near 800 °C. MoSi 2 was always observed at the inner interface with Mo 5 Si 3 on the surface. The oxygen segregates from the silicides and accumulates at the Si-MoSi 2 and MoSi 2 -Mo 5 Si 3 interfaces to form a non-uniform layer of SiO x ( x ⩽ 2).

Published

1982

8. Damage recovery and dopant activation phenomena in heavily arsenic-implanted silicon

Author

S. Solmi, G. Queirolo, E. Landi, G. Pignatel, Laura Meda, M. Gallorini, G. Ottaviani, G.F. Cerofolini, Filippo Nava, A. Garulli, and P. Manini

Subjects

Electron mobility, Silicon, Metals and Alloys, chemistry.chemical_element, Surfaces and Interfaces, Dopant Activation, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ion implantation, chemistry, Electrical resistivity and conductivity, Transmission electron microscopy, Materials Chemistry, Surface layer, Composite material, Arsenic, Nuclear chemistry

Abstract

A detailed experimental analysis of self-anneal and post-anneal phenomena in heavily arsenic-implanted silicon has clarified the role of the beam current in the ion implantation process. Current effects, which are more evident the higher the implant current, consist of an increase in temperature during the implant and lead to the formation of (1) a heavily damaged crystalline bulk layer, which cannot be further reconstructed by successive heat treatments performed at moderate temperature (lower than 800°C), and (2) a partially reconstructed surface layer, the quality of which can be increased by post-annealing treatments. Both carrier mobility and dopant activation are significantly reduced in the highly damaged bulk region.

Published

1985

9. AES Study of Boron Diffusion in Silicon from a Boron Nitride Source with Hydrogen Injection

Author

G. Pignatel and G. Queirolo

Subjects

Materials science, Silicon, Renewable Energy, Sustainability and the Environment, Inorganic chemistry, chemistry.chemical_element, Nitride, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Boron nitride, Materials Chemistry, Electrochemistry, Hydrogen fuel enhancement, Boron diffusion, Boron

Published

1979

10. The oxygen effect in the growth kinetics of platinum silicides

Author

G. Pignatel, G. Queirolo, Sergio Valeri, G. Majni, Filippo Nava, and A. Cembali

Subjects

oxygen effect, platinum silicide, growth, Materials science, Silicon, Annealing (metallurgy), Metallurgy, Inorganic chemistry, General Physics and Astronomy, chemistry.chemical_element, Oxygen, Metal, Platinum silicide, chemistry.chemical_compound, chemistry, visual_art, Silicide, visual_art.visual_art_medium, Limiting oxygen concentration, Platinum

Abstract

Silicide formation is strongly affected by the presence of oxygen contained in the metal film. A study has been performed by heating at various times and temperatures samples constituted by a thin Pt film sputter deposited on a silicon substrate. Four different oxygen concentrations were implanted in the Pt film ranging from 1 to 0.1 at.%. The presence of oxygen slows down the growth rate of Pt2Si. At 315 °C in the sample with an oxygen concentration of 1 at.%, about 1000 A of Pt2Si are formed after 20 min of annealing. During the silicide formation, the oxygen originally contained in the platinum films segregates at the Pt2Si/Pt interface. This accumulation acts as a barrier for the transport of Pt and a new phase, PtSi, can form at the Pt2Si/Si interface. The dose necessary to stop the Pt2Si reaction is about (2–4)×1015 at./cm2 at 315 °C.

Published

1981

11. Heat Capacity of P-Doped Si Thermistors at Low and Very Low Temperature Measured by Alpha-Particles and X-Rays

Author

D.V. Camin, M. Buraschi, A. Alessandrello, E. Fiorini, Alessandro Giuliani, and G. Pignatel

Subjects

Materials science, Silicon, Condensed matter physics, Bolometer, Thermistor, Doping, Extrapolation, General Physics and Astronomy, chemistry.chemical_element, Alpha particle, Heat capacity, law.invention, symbols.namesake, chemistry, law, symbols, Debye

Abstract

The heat capacities of three specially implanted silicon bolometers have been measured at low and, for the first time, at very low temperatures down to about 10 mK by exposing them to alpha-particles and X-rays. The lattice contribution shows a behaviour with temperature in good agreement with the Debye law, and the percentage of thermalized energy of the alpha-particle is found to be about 70%. The specific heat of the doped part, which dominates at very low temperatures, is not inconsistent with linearity, even if a dependence on a higher power of the temperature seems preferred. The parameter of linearity is found to be considerably larger than expected from extrapolation to very low temperatures of the existing results on silicon P-doped by diffusion.

Published

1988

12. The interaction of Ni-Pt alloy with silicon

Author

G. Celotti, Filippo Nava, G. Pignatel, G. Queirolo, and S. Mantovani

Subjects

Auger electron spectroscopy, Materials science, Silicon, Annealing (metallurgy), Metallurgy, Alloy, Metals and Alloys, Analytical chemistry, chemistry.chemical_element, Surfaces and Interfaces, Electron, engineering.material, Rutherford backscattering spectrometry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Nickel, chemistry, Materials Chemistry, engineering, Platinum

Abstract

Diffusion and segregation effects during the formation of silicides in the interaction of an Ni-Pt alloy with Si and Si substrates were investigated by means of 4He+ megaelectronvolt Rutherford backscattering spectrometry, Auger electron spectroscopy coupled with Ar+ ion sputtering and glancing angle X-ray diffraction as functions of the heat treatment (150–850°C). The Ni-Pt alloy film was deposited onto silicon by codeposition using a system of electron guns. After low temperature annealing of the sample the nickel segregates and NiSi is formed at the original silicon-alloy interface. Further annealing promotes the interdiffusion of platinum into the NiSi. The barrier heights measured on n-type silicon confirm these observations. At low temperatures or after short annealing times the barrier height is 0.70eV. Further annealing increases this value until saturation is reached at, for Pt45Ni55 alloy, 0.77 eV. At high temperatures the contact degrades.

Published

1982

13. Bolometric detection of particles

Author

G. Pignatel, M. Buraschi, A. Alessandrello, D. V. Camin, Ettore Fiorini, and A. Giuliani

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, Dark matter, Bolometer, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Dielectric, law.invention, Nuclear physics, law, Diamagnetism, Particle, High Energy Physics::Experiment, Neutrino, Instrumentation, Electron neutrino

Abstract

Pure dielectric and diamagnetic materials working at low temperatures, coupled with suitable thermal sensors, can be used to measure the energy released by a single particle, in ionizing and non-ionizing events, with very high resolution. This capability makes bolometers very interesting devices for detection of rare decays, neutrino interactions, determination of electron neutrino mass and dark matter measurements. Developments in bolometers as particle detectors are presented especially in view of large mass detectors for underground measurements of rare decays, neutrinos and dark matter. A brief review of other kinds of cryogenic detectors is also given together with a short introduction to the bolometer theory.

Published

1989

14. Thermal diffusion of Pt in silicon from PtSi

Author

S. Mantovani, M. Conti, C. Nobili, Filippo Nava, and G. Pignatel

Subjects

Materials science, Physics and Astronomy (miscellaneous), Silicon, Annealing (metallurgy), Radiochemistry, chemistry.chemical_element, Electron, Activation energy, Thermal diffusivity, Acceptor, Molecular physics, Diffusion profile, chemistry, Platinum

Abstract

Platinum diffusion in n‐type silicon has been measured using various kinds of spectroscopic techniques for deep energy levels. Platinum acts as an acceptor which captures electrons. An energy level of 0.23±0.02 eV was found for the trap. The diffusion profile can be explained, as in the case of gold, with a kick‐out mechanism involving silicon self‐interstitials. From the model, an activation energy of 5.01 eV for silicon self‐interstitial diffusion can be inferred.

Published

1984

15. ChemInform Abstract: AUGER ELECTRON SPECTROSCOPY (AES) STUDY OF BORON DIFFUSION IN SILICON FROM A BORON NITRIDE SOURCE WITH HYDROGEN INJECTION

Author

G. Pignatel and G. Queirolo

Subjects

chemistry.chemical_compound, Auger electron spectroscopy, chemistry, Silicon, Boron nitride, Analytical chemistry, chemistry.chemical_element, Hydrogen fuel enhancement, General Medicine, Boron diffusion, Nitride

Published

1980

16. Construction and performance of fast thermal detectors of alpha particles and X-rays

Author

G. Pignatel, M. Buraschi, D. V. Camin, Ettore Fiorini, A. Giuliani, and A. Alessandrello

Subjects

Physics, Nuclear and High Energy Physics, Silicon, Physics::Instrumentation and Detectors, business.industry, Bolometer, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, chemistry.chemical_element, Alpha particle, Thermal detector, law.invention, Pulse (physics), Optics, chemistry, law, Dilution refrigerator, business, Instrumentation, Electrical impedance

Abstract

Three new silicon bolometers have been constructed and exposed to alpha particles and X-rays at temperatures down to 10 mK in a dilution refrigerator. The low impedence of these detectors enabled us to achieve, together with energy resolutions comparable with those of similar counters, much faster pulse risetime. The flexibility of these bolometers allows measuring energies from a few keV to tens of MeV.

Published

1988

17. Fast P‐doped silicon bolometer for detecting heat pulses

Author

Ugo Valbusa, Corrado Boragno, and G. Pignatel

Subjects

Materials science, Physics and Astronomy (miscellaneous), Silicon, Phonon, business.industry, Open-circuit voltage, Bolometer, Detector, Doping, Analytical chemistry, chemistry.chemical_element, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, law.invention, Responsivity, Ion implantation, chemistry, law, Condensed Matter::Superconductivity, Optoelectronics, Condensed Matter::Strongly Correlated Electrons, business

Abstract

A new detector of ballistic phonons is presented. It is a P‐doped Si bolometer realized on top of a (100)Si crystal by ion implantation. The open circuit responsivity of the bolometer is 8000 V/W and the response time less than 50 ns. Time‐resolved spectra of ballistic phonons propagating in the same Si crystal along the 〈100〉 direction are reported.

Published

1987

18. Electron and ion beam effects in auger electron spectrometry

Author

G. Pignatel and G. Queirolo

Subjects

Auger electron spectroscopy, Reflection high-energy electron diffraction, Ion beam deposition, Ion beam, Ion beam mixing, Chemistry, General Engineering, Energy-dispersive X-ray spectroscopy, Analytical chemistry, Electron beam-induced deposition, Atomic physics, Focused ion beam

Published

1982

19. Progress on the development of a silicon-carbon nanotube photodetector

Author

G.U. Pignatel, Sandro Santucci, Maurizio Passacantando, Paola Castrucci, Eugenio Nappi, A. Tinti, Antonio Valentini, Carla Aramo, F. Guarino, Roberto Battiston, V. Grossi, M. De Crescenzi, Marco Cilmo, Antonio Ambrosio, M. Ambrosio, E. Fiandrini, P. Maddalena, Manuela Scarselli, C., Aramo, A., Ambrosio, M., Ambrosio, R., Battiston, P., Castrucci, Cilmo, Marco, M., De Crescenzi, E., Fiandrini, Guarino, Fausto, V., Grossi, Maddalena, Pasqualino, E., Nappi, M., Passacantando, G., Pignatel, S., Santucci, M., Scarselli, A., Tinti, and A., Valentini

Subjects

Nuclear and High Energy Physics, Silicon, photonics, Photodetector, chemistry.chemical_element, Nanotechnology, Carbon nanotube, Chemical vapor deposition, Multiwall carbon nanotubes, Photocathode, nanotubes, law.invention, Settore FIS/03 - Fisica della Materia, law, Instrumentation, Phototransistor, Physics, nanotubes, photonics, detector, detector, business.industry, Heterojunction, Semiconductor, chemistry, Optoelectronics, Quantum efficiency, business

Abstract

The properties of carbon nanotubes (CNTs), the new allotropic status of carbon discovered in 1991, have been widely investigated in all possible application field. This new material in fact can be easily obtained chemically by CVD (Chemical Vapour Deposition) as a layer of nanotubes growth on a wide variety of materials. When growth on a silicon surface, CNTs create a semiconductor heterojunction with peculiar photoresponsivity properties. We studied this heterojunction with the purpose to realize a large photocathode with high quantum efficiency in a large wavelength range from UV to IR. Results obtained up to day allowed us to build a new kind of photodetector very cheap, stable and easy to manage. Recently this new device has been proposed as one of candidates for the beam monitor system of SuperB.

Published

2013

20. Development of new photon detection device for Cherenkov and fluorescence radiation

Author

Kampert, K. H., Aramo, C., Ambrosio, A., Ambrosio, M., Battiston, Roberto, Castrucci, P., Cilmo, M., De Crescenzi, M., Fiandrini, Emanuele, Guarino, F., Grossi, V., Maddalena, P., Nappi, E., Passacantando, M., Pignatel, G., Santucci, S., Scarselli, M., Tinti, A., Valentini, A., Fukushima, M., Engel, R., Pattison, B., C., Aramo, A., Ambrosio, M., Ambrosio, R., Battiston, P., Castrucci, Cilmo, Marco, M., De Crescenzi, E., Fiandrini, Guarino, Fausto, V., Grossi, Maddalena, Pasqualino, E., Nappi, M., Passacantando, G., Pignatel, S., Santucci, M., Scarselli, A., Tinti, and A., Valentini

Subjects

Physics::Instrumentation and Detectors, SiPM, QC1-999, Photodetector, 02 engineering and technology, Radiation, 7. Clean energy, 01 natural sciences, Settore FIS/03 - Fisica della Materia, Optics, Silicon photomultiplier, Operating temperature, 0103 physical sciences, photodetector, Cherenkov radiation, 010302 applied physics, Astroparticle physics, Physics, carbon nanotubes, SiPM, photodetector, carbon nanotubes, business.industry, Detector, 021001 nanoscience & nanotechnology, Semiconductor, Optoelectronics, 0210 nano-technology, business

Abstract

Recent progress on the development of a new solid state detector allowed the use of finely pixelled photocathodes obtained from silicon semiconductors. SiPM detectors seem to be an ideal tool for the detection of Cherenkov and fluorescence light in spite of their not yet resolved criticism for operating temperature and intrinsic noise. The main disadvantage of SiPM in this case is the poor sensitivity in the wavelength range 300-400 nm, where the Cherenkov light and fluorescence radiation are generated. We report on the possibility to realize a new kind of pixelled photodetector based on the use of silicon substrate with carbon nanotube compounds, more sensitive to the near UV radiation. Also if at the very beginning, the development of such detector appears very promising and useful for astroparticle physics, both in the ground based arrays and in the space experiments. The detectors are ready to be operated in conditions of measurements without signal amplification.

Published

2013

21. Progress in the realization of a silicon-CNT photodetector

Author

Maurizio Passacantando, M. De Crescenzi, F. Guarino, E. Fiandrini, M. Ambrosio, A. Tinti, Antonio Valentini, G.U. Pignatel, Sandro Santucci, Carla Aramo, V. Grossi, Antonio Ambrosio, Eugenio Nappi, Paola Castrucci, Marco Cilmo, Manuela Scarselli, C., Aramo, A., Ambrosio, M., Ambrosio, P., Castrucci, Cilmo, Marco, M., De Crescenzi, E., Fiandrini, Guarino, Fausto, V., Grossi, E., Nappi, M., Passacantando, G., Pignatel, S., Santucci, M., Scarselli, A., Tinti, and A., Valentini

Subjects

Nuclear and High Energy Physics, Silicon, Schottky junction, Physics::Instrumentation and Detectors, Schottky barrier, Photodetector, chemistry.chemical_element, Substrate (electronics), Carbon nanotube, Metal–semiconductor junction, law.invention, Settore FIS/03 - Fisica della Materia, Condensed Matter::Materials Science, law, Instrumentation, Carbon Nanotubes, Physics, business.industry, Schottky diode, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, chemistry, Optoelectronics, business, Dark current

Abstract

The realization of a Silicon Carbon Nanotube heterojuntion opens the door to a new generation of photodetectors (Si-CNT detector) based on the coupling between this two materials. In particular the growth of Multiwall Carbon Nanotubes on the surface of a n-doped silicon substrate results on a Schottky diode junction with precise rectifying characteristics. The obtained device presents a low dark current, high efficiency in the photoresponsivity, high linearity and a wide stability range. The junction barrier is about 3.5 V in reverse polarity with a breakdown limit at more than 100 V. The spectral behavior reflects the silicon spectral range with a maximum at about 880 nm.

Published

2012