Your search keyword '"G. Benassi"' showing total 29 results

1. Preliminary characterization of a CdZnTe photon detector for BNCT-SPECT

Author

Nicola Zambelli, Ian Postuma, Saverio Altieri, Andrea Zappettini, Nicoletta Protti, S. Fatemi, Silva Bortolussi, G. Benassi, M. Zanichelli, and Manuele Bettelli

Subjects

Nuclear and High Energy Physics, Photon, Physics::Instrumentation and Detectors, Physics::Medical Physics, Single-photon emission computed tomography, 01 natural sciences, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Optics, 0103 physical sciences, medicine, Irradiation, Energy resolution, Instrumentation, Physics, Detector efficiency, Range (particle radiation), medicine.diagnostic_test, 010308 nuclear & particles physics, business.industry, Detector, Resolution (electron density), Semiconductor detector, Neutron capture, SPECT, BNCT, CdZnTe, business

Abstract

The effectiveness of Boron Neutron Capture Therapy (BNCT) treatment depends on the amount of radiation dose deposited locally by the reaction 10B ( n , α ) 7 Li in the tumour; however, the local and real time measurement of this quantity during the neutron irradiation is a big challenge. To evaluate the dose it is necessary to know the spatial distribution of the 10 B concentration and thermal neutron flux in the tissue during the irradiation. One technique to solve this problem relies on the on-line detection of the 478 keV 7 Li de-excitation photons that can be used to map the spatial distribution of the reaction rate of the 10B ( n , α ) 7 Li. The present work has been developed within a project aiming to develop a Single Photon Emission Computed Tomography (SPECT) system based on CdZnTe (CZT) semiconductor detector. This work studied the performances of a 5 × 5 × 20 mm 3 CZT prototype detector focusing on the energy resolution and detection efficiency inside the energy range 200–1400 keV. The energy resolution at 478 keV is ∼ 3% and the detection efficiency is around 6%. These preliminary results confirms the feasibility of a CZT detector as a sensitive unit for a BNCT-SPECT imaging system.

Published

2018

2. Gamma-ray spectral unfolding of cdznte-based detectors using a genetic algorithm

Author

Andrea Zappettini, Manuele Bettelli, Nicola Zambelli, Nicola Sarzi Amadè, G. Benassi, and Silvia Zanettini

Subjects

Spectral shape analysis, Letter, Physics::Instrumentation and Detectors, MathematicsofComputing_GENERAL, Radiation, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Spectral line, gamma spectrum, Analytical Chemistry, Optics, 0103 physical sciences, Genetic algorithm, Data_FILES, genetic algorithm, lcsh:TP1-1185, Electrical and Electronic Engineering, 010306 general physics, Instrumentation, Physics, Energy distribution, 010308 nuclear & particles physics, business.industry, Detector, Gamma ray, unfolding algorithm, Atomic and Molecular Physics, and Optics, Semiconductor detector, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Computer Science::Programming Languages, Software_PROGRAMMINGLANGUAGES, business

Abstract

The analysis of γ-ray spectra can be an arduous task, especially in the case of room temperature semiconductor detectors, where several distortions and instrumental artifacts conceal the true spectral shape. We developed a genetic algorithm to perform the unfolding of γ-spectra in order to restore the true energy distribution of the incoming radiation. We successfully validated our approach on experimental spectra of four radionuclides (241Am, 57Co, 137Cs and 133Ba) acquired with two CdZnTe-based detectors with different contact geometries (single pixel and drift strip). The unfolded spectra consist of δ-like peaks in correspondence with the radiation emissions of each radioisotope.

Published

2020

3. Development of a 3D CZT Spectrometer System with Digital Readout for Hard X/Gamma-Ray Astronomy

Author

Ezio Caroli, Natalia Auricchio, Nicola Zambelli, Leonardo Abbene, Giuseppe Sottile, Silvia Zanettini, Fabio Principato, Nicola Sarzi Amadè, Nicoletta Protti, Antonino Buttacavoli, Andrea Zappettini, John B. Stephen, Stefano Del Sordo, G. Benassi, ITA, Caroli E., Zanettini S., Abbene L., Auricchio N., Benassi G., Buttacavoli A., Amade N.S., Del Sordo S., Principato F., Protti N., Sottile G., Stephen J.B., Zambelli N., and Zappettini A.

Subjects

Materials science, STRIPS, CZT detector, sensors, computer.software_genre, 01 natural sciences, law.invention, 010309 optics, Optics, law, 0103 physical sciences, Digital Readout, 010303 astronomy & astrophysics, Image resolution, Digital electronics, X-ray and gamma ray detectors, Spectrometer, business.industry, Firmware, Settore FIS/01 - Fisica Sperimentale, Detector, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Cathode, Anode, 3D CZT, business, computer

Abstract

We report on the development and of a complete X/γ rays detection system (10-1000 keV) based on CZT spectrometers with spatial resolution in three dimensions (3D) and a digital electronics acquisition chain. The prototype is made by packing four linear modules, each composed of one 3D CZT sensors. Each sensors is realized using a single spectroscopic graded CZT crystal of about 20×20×5 mm3. An electrode structure consisting of 12 collecting anodes with a pitch of 1.6 mm and 3 drift strips between each pair of anodes for 48 strips (0.15 mm wide) on the anodic side was adopted. The cathode is made of 10 strips with a pitch of 2 mm and orthogonal to anode side strips. Since the reading of the drift strips will carried out by putting in parallel all the strips that occupy the same place with respect to a collecting anode, the channels number for each sensors is only 25. The detector readout front-is based on custom designed low noise charge sensitive pre-amplifiers (CSP) implemented in hybrid 16 channels board. The CZT module and its CSP front-end provide the signals to a multichannel Digital Pulse Processing FPGA based system able to digitize and process continuously the signals. The digital system implement an innovative firmware that allow performing fine time-tagging, online pulse shape and height analysis with good energy resolution.

Published

2019

4. X-ray response of CdZnTe detectors grown by the vertical Bridgman technique: Energy, temperature and high flux effects

Author

A.A. Turturici, Nicola Zambelli, Manuele Bettelli, Leonardo Abbene, G. Benassi, Andrea Zappettini, Giuseppe Raso, Fabio Principato, Gaetano Gerardi, Abbene, L, Gerardi, G, Turturici, A A, Raso, G, Benassi, G, Bettelli, M, Zambelli, N, Zappettini, A, and Principato, F

Subjects

0301 basic medicine, 030103 biophysics, Nuclear and High Energy Physics, High flux, Digital pulse shape analysi, 01 natural sciences, Boron oxide encapsulated vertical Bridgman, law.invention, 03 medical and health sciences, law, 0103 physical sciences, Polarization (electrochemistry), Instrumentation, Physics, X-ray and gamma ray detectors, 010308 nuclear & particles physics, business.industry, CdZnTe detectors, CdZnTe detector, Energy-resolved photon counting detector, Settore FIS/01 - Fisica Sperimentale, Detector, Gamma ray, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Cathode, Photon counting, Anode, Full width at half maximum, Electrode, Energy-resolved photon counting detectors, Optoelectronics, Digital pulse shape analysis, business

Abstract

Nowadays, CdZnTe (CZT) is one of the key materials for the development of room temperature X-ray and gamma ray detectors and great efforts have been made on both the device and the crystal growth technologies. In this work, we present the results of spectroscopic investigations on new boron oxide encapsulated vertical Bridgman (B-VB) grown CZT detectors, recently developed at IMEM-CNR Parma, Italy. Several detectors, with the same electrode layout (gold electroless contacts) and different thicknesses (1 and 2.5 mm), were realized: the cathode is a planar electrode covering the detector surface (4.1×4.1 mm2), while the anode is a central electrode (2×2 mm2) surrounded by a guard-ring electrode. The detectors are characterized by electron mobility-lifetime product (µeτe) values ranging between 0.6 and 1·10−3 cm2/V and by low leakage currents at room temperature and at high bias voltages (38 nA/cm2 at 10000 V/cm). The spectroscopic response of the detectors to monochromatic X-ray and gamma ray sources (109Cd, 241Am and 57Co), at different temperatures and fluxes (up to 1 Mcps), was measured taking into account the mitigation of the effects of incomplete charge collection, pile-up and high flux radiation induced polarization phenomena. A custom-designed digital readout electronics, developed at DiFC of University of Palermo (Italy), able to perform a fine pulse shape and height analysis even at high fluxes, was used. At low rates (200 cps) and at room temperature (T=25 °C), the detectors exhibit an energy resolution FWHM around 4% at 59.5 keV, for comparison an energy resolution of 3% was measured with Al/CdTe/Pt detectors by using the same electronics (A250F/NF charge sensitive preamplifier, Amptek, USA; nominal ENC of 100 electrons RMS). At high rates (750 kcps), energy resolution values of 7% and 9% were measured, with throughputs of 2% and 60% respectively. No radiation polarization phenomena were observed at room temperature up to 1 Mcps (241Am source, 60 keV), while a detector collapse characterizes the samples at T Comparison with two traveling heater method (THM) grown CZT detectors (REDLEN, Canada), fabricated with the same electrode layout, is also presented. These activities are in the framework of an Italian research project on the development of energy-resolved photon counting (ERPC) systems for high flux energy-resolved X-ray imaging.

Published

2016

5. Haptic Teleoperation of UAV Equipped with Gamma-Ray Spectrometer for Detection and Identification of Radio-Active Materials in Industrial Plants

Author

Nicola Zambelli, Giorgio Micconi, Manuele Bettelli, Davide Calestani, Jacopo Aleotti, Andrea Zappettini, Stefano Caselli, and G. Benassi

Subjects

Identification (information), UAV, Nuclear detection, Procurement, Situation awareness, Computer science, Real-time computing, Detector, Teleoperation, CZT, Spectroscopic detectors, Environmental monitoring, Human-in-the-loop, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Focus (optics), Haptic technology

Abstract

Large scale factories such as steel, wood, construction, recycling plants and landfills involve the procurement of raw material which may include radiating parts, that must be monitored, because potentially dangerous for workers. Manufacturing operations are carried out in unstructured environments, where fully autonomous unmanned aerial vehicle (UAV) inspection is hardly applicable. In this work we report on the development of a haptic teleoperated UAV for localization of radiation sources in industrial plants. Radiation sources can be localized and identified thanks to a novel CZT-based custom gamma-ray detector integrated on the UAV, providing light, compact, spectroscopic, and low power operation. UAV operation with a human in the loop allows an expert operator to focus on selected candidate areas, thereby optimizing short flight mission in face of the constrained acquisition times required by nuclear inspection. To cope with the reduced situational awareness of the remote operator, force feedback is exploited as an additional sensory channel. The developed prototype has been demonstrated both in relevant and operational environments.

Published

2019

6. Prompt gamma tomography for BNCT-SPECT: a feasibility study using small animal phantoms

Author

Ian Postuma, Silva Bortolussi, G. Benassi, A. Zappettini, Saverio Altieri, Chiara Magni, M. Bettelli, Nicoletta Protti, Nicola Zambelli, and Setareh Fatemi

Subjects

Photon, Materials science, medicine.diagnostic_test, Detector, Single-photon emission computed tomography, Neutron temperature, Charged particle, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Neutron capture, 0302 clinical medicine, 030220 oncology & carcinogenesis, medicine, Neutron, Tomography, Biomedical engineering

Abstract

Boron Neutron Capture Therapy (BNCT) is a binary radiotherapy based on the reaction 10B(n,α)7Li induced by thermal neutrons. 10B selectively loads cancer cells through a boronated drug injected into patient few hours before neutron irradiation. The secondary charged particles have short ranges in tissues (less than the mean cell diameter of few tens of µm), thus they deposit their whole kinetic energy (up to 2.79 MeV) inside the cell where the capture reaction took place. In this way it is possible to selectively damage the malignant cells sparing the surrounding healthy ones.To take full advantage of BNCT selectivity a precise knowledge of 10B spatial distribution is required. This quantity can be measured by Single Photon Emission Computed Tomography (SPECT) thanks to the emission of a 478 keV γ ray in the 94% of 10B capture reactions. Notably, the counting rate of this photon is meaningful of the dose rate due to the neutron captures in the patient thus allowing an in vivo, real time dose monitoring.In the present study we evaluated the capabilities of a small prototype of CdZnTe (CZT) photon detector to reconstruct the tomographic image of tissue equivalent phantoms loaded with point like γ sources (such as 22Na, 137Cs and 57Co), activated detectors (Cu and Au wires) and 18F water solutions.

Published

2018

7. High Performance CZT Detectors for In-Line Non-destructive X-Ray Based Density Measurements

Author

Andrea Zappettini, Alessandro Guidetti, Nicola Zambelli, Silvia Zanettini, G. Benassi, and Andrea Bettati

Subjects

0301 basic medicine, 030103 biophysics, Photon, Materials science, business.industry, System of measurement, Detector, Resolution (electron density), Signal, Continuous production, 03 medical and health sciences, Optoelectronics, business, Voltage, Dark current

Abstract

We have developed a system for in-line density measurements based on a CdZnTe (CZT) detector to be used for quality control purposes related to production inspection, failure analysis, and lot inspection for wood-based panel industry. Real-time absolute density measurement systems are fundamental to minimize production wastage, especially for continuous production as wood and ceramics.CZT detectors with dimensions 4.1 x 4.1 x 2.5 mm3 were realized starting from standard Redlen Technologies CZT material by due2lab s.r.l. in collaboration with IMEM-CNR and integrated in a stand-alone detection module fully engineered and realized by due2lab. Low dark current density (10÷100 pA/mm2 @100 V/mm) even at high bias voltages (up to 1000 V) at room temperature (T = 25 °C) has been reproducibly achieved in several samples. These low dark current values are crucial in non-destructive X-ray industrial applications where X-ray photons in the low energy range play an important role in material discrimination. Digitalization of the CZT sensor signal was obtained with a novel digital electronic board designed by due2lab. The spectra obtained by irradiating the detectors with a 241Am source show excellent resolution down to 12 keV. The detectors were integrated in an innovative in-line non-destructive X-ray density measurements system for wood panel production quality control developed by IMAL PAL s.r.l. (Modena, Italy).

Published

2018

8. High performance 3D CZT spectro-imager for BNCT-SPECT: preliminary characterization

Author

A. Basili, Nicola Zambelli, Silva Bortolussi, A. Zappettini, Natalia Auricchio, Manuele Bettelli, Ian Postuma, Antonino Buttacavoli, Ezio Caroli, Nicoletta Protti, Saverio Altieri, Leonardo Abbene, Silvia Zanettini, Setareh Fatemi, Fabio Principato, Chiara Magni, G. Benassi, ITA, Fatemi S., Abbene L., Principato F., Buttacavoli A., Auricchio N., Caroli E., Basili A., Zambelli N., Benassi G., Bettelli M., Zanettini S., Zappettini A., Bortolussi S., Magni C., Postuma I., Altieri S., and Protti N.

Subjects

Physics, medicine.diagnostic_test, 010308 nuclear & particles physics, business.industry, Settore FIS/01 - Fisica Sperimentale, Detector, Resolution (electron density), Single-photon emission computed tomography, 01 natural sciences, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), 030218 nuclear medicine & medical imaging, Characterization (materials science), Hadron therapy, Boron neutron capture therapy, 03 medical and health sciences, Neutron capture, Full width at half maximum, 0302 clinical medicine, Optics, Single photon emission computed tomography, 0103 physical sciences, medicine, Neutron irradiation, business, X ray detector

Abstract

The National Institute of Nuclear Physics (INFN) is supporting the 3CaTS project with the aim of developing a new Single Photon Emission Computed Tomography (SPECT) system for real time 10 B therapeutic dose monitoring in the binary experimental hadron therapy called Boron Neutron Capture Therapy (BNCT). BNCT is a highly selective tumour treatment based on the neutron capture reaction 10 B(n,α) 7 Li. The secondary particles have a high LET with ranges in tissues of the order of 10 μm (thus less than the mean cell diameter of few tens μm). Targeting the 10 B delivery towards cancer, the released energy lethally damages only the malignant cells sparing the normal tissues, thus enabling a cell-level selective treatment. To properly exploit this selectivity it is mandatory to know the 10 B spatial distribution inside patients body during neutron irradiation. This can be achieved by detecting the 478 keV γ ray emitted in the 94% of 10 B capture reactions by a SPECT system. A 3D CZT drift strip detector with a sensitive volume of 20x20x5 mm 3 was developed, able to perform high-resolution X-ray and γ ray spectroscopic imaging (10-1000 keV). The detector signals are analysed by a custom digital multi-channel electronics, based on two pipelined fast and slow analysis, able to perform multi-parameter analysis and fine temporal coincidences (

Published

2018

9. Microscale X-ray mapping of CZT arrays: Spatial dependence of amplitude, shape and multiplicity of detector pulses

Author

B. Thomas, Nicola Zambelli, Matthew C. Veale, Andrea Zappettini, Manuele Bettelli, Gaetano Gerardi, G. Benassi, Fabio Principato, Paul Seller, Leonardo Abbene, Abbene, L., Principato, F., Gerardi, G., Benassi, G., Zambelli, N., Zappettini, A., Bettelli, M., Seller, P., Thomas, B., and Veale, M.C.

Subjects

radiation detector, Radiology, Nuclear Medicine and Imaging, Nuclear and High Energy Physics, Materials science, Preamplifier, 01 natural sciences, Collimated light, 030218 nuclear medicine & medical imaging, Charge sharing, law.invention, 03 medical and health sciences, 0302 clinical medicine, Optics, law, 0103 physical sciences, high flux, mapping, Instrumentation, 010308 nuclear & particles physics, business.industry, ASIC, Detector, Biasing, Dead time, Synchrotron, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), CZT, Full width at half maximum, sinchrotron radiation, business

Abstract

In this work, we present the results of a microscale X-ray mapping of a 2 mm thick CZT pixel detector, with pixel pitches of 500 μm and 250 μm, using collimated synchrotron X-ray sources at the Diamond Light source (U. K.). The detector is dc coupled to a fast and low noise ASIC (PIXIE ASIC), characterized only by the preamplifier stage. A custom 16-channel digital readout electronics was used, able to perform online fast pulse shape and height analysis (PSHA), with low dead time and reasonable energy resolution at both low and high fluxes. The detector allows high bias voltage operation (> 5000 V/cm) and good energy resolution at room temperature (5.3 %, 2.3 % and 2.1 % FWHM at 22.1, 59.5 and 122.1 keV, respectively) by using fast pulse shaping with low dead time (300 ns). Charge sharing investigations were performed by using uncollimated and collimated X-ray sources with energies above and below the K-shell absorption energy of the CZT material. Collimated 10 × 10 μm synchrotron X-ray beams were used to study the spatial dependence of the amplitude, the shape and the multiplicity of the detector pulses. Charge losses, after charge sharing addition (CSA), were observed for interactions occurring in the volume of the inter-pixel gap and an original method was proposed to recover these losses and improve the energy resolution.High rate measurements at 550 kcps/pixel were also performed, pointing out the key role of the pulse shape analysis in the detection of both charge sharing and pile-up events.

Published

2018

10. Innovative 3D sensitive CdZnTe solid state detector for dose monitoring in Boron Neutron Capture Therapy (BNCT)

Author

Nicola Zambelli, Andrea Zappettini, Xiaobin Tang, Saverio Altieri, Chunhui Gong, Ian Postuma, Silva Bortolussi, Manuele Bettelli, Chiara Magni, Setareh Fatemi, Nicoletta Protti, and G. Benassi

Subjects

Nuclear and High Energy Physics, Photon, Physics::Instrumentation and Detectors, 020209 energy, Physics::Medical Physics, chemistry.chemical_element, 02 engineering and technology, 01 natural sciences, law.invention, neutron, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Irradiation, Nuclear Experiment, Boron, Instrumentation, Physics, therapy, 010308 nuclear & particles physics, 3D sensitive detector, Detector, Radiochemistry, Astrophysics::Instrumentation and Methods for Astrophysics, Solid state detector, Nuclear reactor, Neutron temperature, CZT, Neutron capture, medical application, chemistry, BNCT

Abstract

A BNCT-dedicated SPECT system to monitor in real time the 10B dose is under development focusing on CdZnTe (CZT) solid state detectors as photon sensors. Since BNCT facilities are characterised by a ( n + γ ) radiation field and considering the high value of cadmium neutron absorption cross section , we evaluated the response of a CZT detector using the irradiation thermal neutron facility of the Pavia University research nuclear reactor. The reported measurements showed that, despite the thermal neutron and γ background, the CZT detector is able to discriminate the 10B signal from the neutron capture peaks of 113Cd.

Published

2019

11. Digital CZT detector system for high flux energy-resolved X-ray imaging

Author

G. Benassi, A. Zappettini, Matthew C. Veale, Nicola Zambelli, Leonardo Abbene, Fabio Principato, Manuele Bettelli, Gaetano Gerardi, Paul Seller, Abbene, L., Principato, F., Gerardi, G., Benassi, G., Zambelli, N., Zappettini, A., Bettelli, M., Seller, P., and Veale, M.C.

Subjects

Radiology, Nuclear Medicine and Imaging, Physics::Instrumentation and Detectors, Preamplifier, 01 natural sciences, 030218 nuclear medicine & medical imaging, Charge sharing, 03 medical and health sciences, 0302 clinical medicine, Optics, 0103 physical sciences, Instrumentation, Nuclear and High Energy Physic, Physics, Pixel, 010308 nuclear & particles physics, business.industry, Detector, Settore FIS/01 - Fisica Sperimentale, Gamma ray, SMALL PIXEL, CDTE, PERFORMANCE, RESOLUTION, PROGRESS, CT, Photon counting, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Electronic, Optical and Magnetic Materials, Pixie, Monochromatic color, business

Abstract

Photon counting arrays with energy resolving capabilities are recently desired for the next-generation X-ray imaging systems. In this work, we present the performance of a 2 mm thick CZT pixel detector, with pixel pitches of 500 mu m and 250 mu m, coupled to a fast and low noise ASIC (PIXIE ASIC), characterized by only the preamplifier stage. A 16-channel digital readout electronics was used to continuously digitize and process each output channel from the PIXIE ASIC, performing multi-parameter analysis (event arrival time, pulse shape, pulse height) at low and high input counting rates (ICRs). The spectroscopic response of the system to monochromatic X-ray and gamma ray sources, at both low and high ICRs, is presented with particular attention to the mitigation of some typical spectral distortions (pile-up and charge sharing). The detector allows good energy resolution at moderate cooling (3% FWHM 59.5 keV, -1200 V, T = 5 C) by using fast shaped pulses (i.e. pulses with time widths of 300 ns). Charge sharing investigations were performed by using a fine time coincidence analysis (TCA) and a pulse shape analysis (PSA). The potentialities of the PSA for charge sharing detection even at high photon counting rates were also shown.

Published

2017

12. Digital fast pulse shape and height analysis on cadmium-zinc-telluride arrays for high-flux energy-resolved X-ray imaging

Author

Nicola Zambelli, Andrea Zappettini, Fabio Principato, Matthew C. Veale, Gaetano Gerardi, Paul Seller, Leonardo Abbene, Manuele Bettelli, G. Benassi, Abbene, L., Principato, F., Gerardi, G., Bettelli, M., Seller, P., Veale, M., Zambelli, N., Benassi, G., and Zappettini, A.

Subjects

0301 basic medicine, 030103 biophysics, Nuclear and High Energy Physics, Materials science, Preamplifier, Instrumentation, energy-resolved photon counting detector, digital pulse shape analysi, energy-resolved photon counting detectors, 01 natural sciences, Charge sharing, 03 medical and health sciences, chemistry.chemical_compound, Optics, high flux, 0103 physical sciences, X-ray and ?-ray detectors, Nuclear and High Energy Physic, charge sharing, Radiation, digital pulse shape analysis, Pixel, 010308 nuclear & particles physics, business.industry, CdZnTe detectors, CdZnTe detector, Settore FIS/01 - Fisica Sperimentale, Detector, X-ray and γ-ray detector, Biasing, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Cadmium zinc telluride, chemistry, Direct coupling, business

Abstract

Cadmium-zinc-telluride (CZT) arrays with photon-counting and energy-resolving capabilities are widely proposed for next-generation X-ray imaging systems. This work presents the performance of a 2â...mm-thick CZT pixel detector, with pixel pitches of 500 and 250â...μm, dc coupled to a fast and low-noise ASIC (PIXIE ASIC), characterized only by the preamplifier stage. A custom 16-channel digital readout electronics was used, able to digitize and process continuously the signals from each output ASIC channel. The digital system performs on-line fast pulse shape and height analysis, with a low dead-time and reasonable energy resolution at both low and high fluxes. The spectroscopic response of the system to photon energies below (109Cd source) and above (241Am source) the K-shell absorption energy of the CZT material was investigated, with particular attention to the mitigation of charge sharing and pile-up. The detector allows high bias voltage operation (>5000â...Vâ...cm-1) and good energy resolution at moderate cooling (3.5% and 5% FWHM at 59.5â...keV for the 500 and 250â...μm arrays, respectively) by using fast pulse shaping with a low dead-time (300â...ns). Charge-sharing investigations were performed using a fine time coincidence analysis (TCA), with very short coincidence time windows up to 10â...ns. For the 500â...μm pitch array (250â...μm pitch array), sharing percentages of 36% (52%) and 60% (82%) at 22.1 and 59.5â...keV, respectively, were measured. The potential of the pulse shape analysis technique for charge-sharing detection for corner/border pixels and at high rate conditions (250â...kcpsâ...pixel-1), where the TCA fails, is also shown. Measurements demonstrated that significant amounts of charge are lost for interactions occurring in the volume of the inter-pixel gap. This charge loss must be accounted for in the correction of shared events. These activities are within the framework of an international collaboration on the development of energy-resolved photon-counting systems for high-flux energy-resolved X-ray imaging (1-140â...keV).This work presents the performance of a 2â...mm-thick CZT pixel detector, with pixel pitches of 500 and 250â...μm coupled to a custom 16-channel digital readout electronics, performing on-line fast pulse shape and height analysis. Charge-sharing investigations were performed, at both low and high fluxes, using fine time coincidence analysis and pulse shape analysis.

Published

2017

13. Electroless gold patterning of CdZnTe crystals for radiation detection by scanning pipette technique

Author

Nicola Zambelli, Davide Calestani, M. Zanichelli, G. Benassi, and E. Gombia

Subjects

Materials science, Pixel, business.industry, Resolution (electron density), Detector, Pipette, Electroless deposition, Nanotechnology, General Chemistry, Condensed Matter Physics, Particle detector, Optoelectronics, Inner diameter, General Materials Science, business

Abstract

Recently some of the authors have proposed a new technique to deposit contacts on CdZnTe detectors that combines the standard electroless procedure and the scanning pipette technique. In this work it is shown that by using a 15 micron inner diameter alumina pipette it is possible to deposit gold dots, pixels and micro-stripes without using the standard photolithographic process. Moreover, it is shown that the performances in terms of charge collection efficiency and energy resolution of detectors prepared with the scanning pipette technique are similar to the ones of detectors prepared with the standard electroless procedure.

Published

2014

14. Detection of nuclear sources by UAV teleoperation using a visuo-haptic augmented reality interface

Author

Manuele Bettelli, Nicola Zambelli, Andrea Zappettini, Stefano Caselli, Jacopo Aleotti, G. Benassi, and Giorgio Micconi

Subjects

0209 industrial biotechnology, Engineering, Situation awareness, Interface (computing), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, lcsh:Chemical technology, Biochemistry, Unmanned aerial vehicles, Article, Analytical Chemistry, 020901 industrial engineering & automation, Operator (computer programming), CdZnTe-based detector, Nuclear radiation detector, lcsh:TP1-1185, Computer vision, Electrical and Electronic Engineering, Instrumentation, Haptic technology, business.industry, Detector, nuclear radiation detector, haptic teleoperation, unmanned aerial vehicles, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Identification (information), Teleoperation, Augmented reality, Artificial intelligence, Haptic teleoperation, 0210 nano-technology, business

Abstract

A visuo-haptic augmented reality (VHAR) interface is presented enabling an operator to teleoperate an unmanned aerial vehicle (UAV) equipped with a custom CdZnTe-based spectroscopic gamma-ray detector in outdoor environments. The task is to localize nuclear radiation sources, whose location is unknown to the user, without the close exposure of the operator. The developed detector also enables identification of the localized nuclear sources. The aim of the VHAR interface is to increase the situation awareness of the operator. The user teleoperates the UAV using a 3DOF haptic device that provides an attractive force feedback around the location of the most intense detected radiation source. Moreover, a fixed camera on the ground observes the environment where the UAV is flying. A 3D augmented reality scene is displayed on a computer screen accessible to the operator. Multiple types of graphical overlays are shown, including sensor data acquired by the nuclear radiation detector, a virtual cursor that tracks the UAV and geographical information, such as buildings. Experiments performed in a real environment are reported using an intense nuclear source.

Published

2017

15. Twin-Shaping Filter Technique Applied to CZT Detectors

Author

Natalia Auricchio, A. Zappettini, Saverio Altieri, Nicoletta Protti, Setareh Fatemi, Ezio Caroli, John B. Stephen, Nicola Zambelli, Filomena Schiavone, G. Benassi, A. Basili, and ITA

Subjects

Signals, Materials science, Spectrometer, 010308 nuclear & particles physics, business.industry, Physics::Instrumentation and Detectors, Detector, Biasing, Photon energy, 01 natural sciences, Signal, Pulse shaping, Optics, 0103 physical sciences, Charge carrier, business, Active filter

Abstract

CdTe/CdZnTe is an attractive and consolidated material with which to realize detectors with good efficiency and energy resolution, operating at room temperature for a large variety of applications such as astrophysics, medical imaging and security. However, this type of material suffers from the low mobility of the charge carriers (particularly the holes), which are trapped and so degrade the detector response in terms of charge collection efficiency, energy resolution and photopeak efficiency. The response of a planar CdTe/CdZnTe detector, which depends on the distance between the charge formation position and the collecting electrodes, can be improved by using two kinds of techniques, based on the optimization of the electrode geometry and/or signal compensation methods. We are studying the feasibility and the reliability of a biparametric method that uses a twin pulse shaping active filter to analyze each signal from the detector twice: one “Slow”, which is proportional to the energy of the incident photon, and one “Fast”, which depends on the position of the interaction with respect to the collecting electrode. In this paper we describe the bi-parametric technique applied to planar CdZnTe detectors grown by CNR/IMEM and to Spectrometer Grade detectors. We report the experimental results in terms of energy resolution, peak-to valley ratio and photopeak efficiency, as well as the compensated spectra obtained as a function of the bias voltage, photon energy and shaping time pairs. We also report the results obtained by using a CdZnTe drift strip detector. Furthermore, this technique could be implemented in an array of detectors, whose front-end electronics is composed of ASICs, where the shaping time can be selected for each channel, like the RENA-3 IC (NOVA R&D).

Published

2017

16. Development of new CdZnTe detectors for room-temperature high-flux radiation measurements

Author

Leonardo Abbene, Giuseppe Raso, Gaetano Gerardi, Manuele Bettelli, G. Benassi, Nicola Zambelli, Andrea Zappettini, Fabio Principato, Abbene, L., Gerardi, G., Raso, G., Principato, F., Zambelli, N., Benassi, G., Bettelli, M., and Zappettini, A.

Subjects

Nuclear and High Energy Physics, Preamplifier, 02 engineering and technology, digital pulse shape analysi, Radiation, 01 natural sciences, law.invention, Planar, Optics, travelling heater method, law, 0103 physical sciences, high flux, Instrumentation, energy-resolved photon-counting detectors, Nuclear and High Energy Physic, Physics, digital pulse shape analysis, 010308 nuclear & particles physics, business.industry, CdZnTe detectors, CdZnTe detector, Detector, Settore FIS/01 - Fisica Sperimentale, X-ray and γ-ray detector, energy-resolved photon-counting detector, 021001 nanoscience & nanotechnology, Cathode, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Anode, gold electroless contact, Full width at half maximum, X-ray and -ray detectors, 0210 nano-technology, business, Voltage

Abstract

Recently, CdZnTe (CZT) detectors have been widely proposed and developed for room-temperature X-ray spectroscopy even at high fluxes, and great efforts have been made on both the device and the crystal growth technologies. In this work, the performance of new travelling-heater-method (THM)-grown CZT detectors, recently developed at IMEM-CNR Parma, Italy, is presented. Thick planar detectors (3 mm thick) with gold electroless contacts were realised, with a planar cathode covering the detector surface (4.1 mm × 4.1 mm) and a central anode (2 mm × 2 mm) surrounded by a guard-ring electrode. The detectors, characterized by low leakage currents at room temperature (4.7 nA cm−2 at 1000 V cm−1), allow good room-temperature operation even at high bias voltages (>7000 V cm−1). At low rates (200 counts s−1), the detectors exhibit an energy resolution around 4% FWHM at 59.5 keV (241Am source) up to 2200 V, by using commercial front-end electronics (A250F/NF charge-sensitive preamplifier, Amptek, USA; nominal equivalent noise charge of 100 electrons RMS). At high rates (1 Mcounts s−1), the detectors, coupled to a custom-designed digital pulse processing electronics developed at DiFC of University of Palermo (Italy), show low spectroscopic degradations: energy resolution values of 8% and 9.7% FWHM at 59.5 keV (241Am source) were measured, with throughputs of 0.4% and 60% at 1 Mcounts s−1, respectively. An energy resolution of 7.7% FWHM at 122.1 keV (57Co source) with a throughput of 50% was obtained at 550 kcounts s−1 (energy resolution of 3.2% at low rate). These activities are in the framework of an Italian research project on the development of energy-resolved photon-counting systems for high-flux energy-resolved X-ray imaging.

Published

2017

17. Strong mechanical adhesion of gold electroless contacts on CdZnTe deposited by alcoholic solutions

Author

Manuele Bettelli, Andrea Zappettini, G. Benassi, Nicola Zambelli, L. Nasi, and Davide Calestani

Subjects

010302 applied physics, Materials science, Fabrication, Nanostructure, Detector, Nanotechnology, X-ray detectors, 02 engineering and technology, Adhesion, 021001 nanoscience & nanotechnology, 01 natural sciences, Particle detector, Semiconductor detector, CZT, HPG, 0103 physical sciences, 0210 nano-technology, Instrumentation, Layer (electronics), Mathematical Physics, Stoichiometry, Gamma detectors (scintillators, HgI etc)

Abstract

CdZnTe crystals are nowadays employed as X-ray detectors for a number of applications, such as medical imaging, security, and environmental monitoring. One of the main difficulties connected with CdZnTe-based detector processing is the poor contact adhesion that affect bonding procedures and device long term stability. We have shown that it is possible to obtain mechanically stable contacts by common electroless deposition using alcoholic solutions instead of water solutions. The contacts show blocking current-voltage characteristic that is required for obtaining spectroscopic detectors. Nanoscale-resolved chemical analysis indicated that the improved mechanical adhesion is due to a better control of the stoichiometry of the CdZnTe layer below the contact.

Published

2017

18. Charge carrier transport mechanisms in CdZnTe detectors grown by the vertical Bridgman technique

Author

Nicola Zambelli, A. Zappettini, Fabio Principato, Gaetano Gerardi, Giuseppe Raso, A.A. Turturici, Davide Calestani, Leonardo Abbene, G. Benassi, Turturici, A., Abbene, L., Gerardi, G., Benassi, G., Calestani, D., Zambelli, N., Raso, G., Zappettini, A., and Principato, F.

Subjects

Radiology, Nuclear Medicine and Imaging, Materials science, business.industry, Detector, Settore FIS/01 - Fisica Sperimentale, Biasing, Cathode, Photon counting, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Anode, law.invention, Detectors, Crystals, Conductivity, Temperature measurement, Leakage currents, Surface treatment, Temperature, law, Electrode, Optoelectronics, Charge carrier, business, Instrumentation, Voltage, Nuclear and High Energy Physic

Abstract

In this work, we report on the results of electrical characterization of CdZnTe (CZT) detectors, with gold electroless contacts, grown by the boron oxide encapsulated vertical Bridgman technique (B-VB), currently produced at IMEM-CNR (Parma, Italy). The detectors, with different thicknesses (1 and 2.5 mm), have the same electrode layout: the anode is a central electrode (2 x 2 mm(2)) surrounded by a guard ring electrode. The cathode is a planar electrode covering the detector surface (4.1 x 4.1 mm(2)). Current-voltage (I-V) characteristics were measured at different temperatures in order to study the charge transport and the electrical properties. These detectors were compared with the traveling heater method (THM) CdZnTe grown detectors (Redlen, Canada), fabricated with the same electrode layout and deposition. The results highlight the low leakage currents of the B-VB CdZnTe detectors even at high bias voltages: 38 nA/cm(2) (T = 25 degrees C) at 10000 V/cm. This feature allows high bias voltage operation, very important for high flux applications. These activities are in the framework of an Italian research project on the development of energy resolved photon counting (ERPC) systems for high flux energy resolved X-ray imaging.

Published

2016

19. Spectroscopic response and charge transport properties of CdZnTe detectors grown by the vertical Bridgman technique

Author

Natalia Auricchio, Nicola Zambelli, A.A. Turturici, Giuseppe Raso, Gaetano Gerardi, A. Zappettini, Ezio Caroli, Fabio Principato, G. Benassi, Leonardo Abbene, S. Del Sordo, Abbene, L., Gerardi, G., Turturici, A., Raso, G., Del Sordo, S., Caroli, E., Auricchio, N., Benassi, G., Zambelli, N., Zappettini, A., Principato, F., and ITA

Subjects

Zinc telluride, Radiology, Nuclear Medicine and Imaging, Materials science, business.industry, Instrumentation, Detector, Settore FIS/01 - Fisica Sperimentale, Electrical engineering, Temperature measurement, Cathode, Photon counting, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), law.invention, Anode, law, Electrode, Cadmium alloys, Optoelectronics, Cadmium telluride, Photonics, business, Nuclear and High Energy Physic

Abstract

In this work, we present the results of spectroscopic investigations on CdZnTe (CZT) detectors grown by the boron oxide encapsulated vertical Bridgman technique (1MEM-CNR, Parma, Italy). The detectors, with different thicknesses (1 and 2.5 mm), are characterized by the same electrode layout (gold electroless contacts): the anode is a central electrode (2 x 2 mm(2)) surrounded by a guard-ring electrode, while the cathode is a planar electrode covering the detector surface (4.1 x 4.1 mm(2)). The results of electrical investigations point out the low leakage currents of these detectors even at high bias voltages: 38 nA/cm(2) (T = 25 degrees C) at 10000 V/cm. The time stability and the spectroscopic response of the detectors, at different temperatures and fluxes, were investigated. Am-241 spectra were measured up to 1 Mcps. The detectors were compared with the traveling heater method (THM) CZT grown detectors (Redlen), fabricated with the same electrode layout. These activities are in the framework of an Italian research project on the development of energy resolved photon counting (ERPC) systems for high flux energy resolved X-ray imaging.

Published

2016

20. Mechanically stable metal layers for ohmic and blocking contacts on CdZnTe detectors by electroless deposition

Author

Manuele Bettelli, Davide Calestani, Leonardo Abbene, A. Zappettini, Fabio Principato, Lucia Nasi, E. Gombia, G. Benassi, Nicola Zambelli, Bettelli, M., Benassi, G., Nasi, L., Zambelli, N., Zappettini, A., Gombia, E., Abbene, L., Principato, F., and Calestani, D.

Subjects

Radiology, Nuclear Medicine and Imaging, Materials science, Contacts, chemistry.chemical_element, Electroless deposition, Crystals, Metal, Nickel, Ohmic contact, Anodes, Instrumentation, Nuclear and High Energy Physic, business.industry, Blocking (radio), Methanol, Metallurgy, Detector, Settore FIS/01 - Fisica Sperimentale, Detectors, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Anode, Low noise, chemistry, visual_art, visual_art.visual_art_medium, Optoelectronics, Gold, business

Abstract

CdZnTe detectors are commonly exploited for the detection of gamma rays. However, obtaining mechanical stable, low noise contacts on CdZnTe is still an issue. In particular, ohmic contacts would be preferable for high flux applications. In this work, we show that it is possible to obtain mechanical stable gold contacts by electroless deposition in methanol solution. Moreover, we show that electroless deposited nickel contacts are also mechanical stable and are good candidates for the realization of ohmic contacts on high resistivity CdZnTe crystals.

Published

2016

21. High Bias Voltage CZT Detectors for High-flux Measurements

Author

Manuele Bettelli, Gaetano Gerardi, A. Zappettini, Leonardo Abbene, G. Benassi, Nicola Zambelli, Giuseppe Raso, Fabio Principato, Abbene, L., Zambelli, N., Gerardi, G., Raso, G., Benassi, G., Bettelli, M., Principato, F., and Zappettini, A.

Subjects

radiation detector, Radiology, Nuclear Medicine and Imaging, Materials science, Preamplifier, 02 engineering and technology, 01 natural sciences, law.invention, law, pixel, 0103 physical sciences, Instrumentation, Nuclear and High Energy Physic, 010308 nuclear & particles physics, business.industry, Detector, Settore FIS/01 - Fisica Sperimentale, Electrical engineering, Biasing, 021001 nanoscience & nanotechnology, Photon counting, Cathode, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Anode, Electronic, Optical and Magnetic Materials, CZT, Full width at half maximum, High Flux, high bias voltage, Optoelectronics, semiconductor detector, 0210 nano-technology, business, Voltage

Abstract

In this work, we present the performance of new travelling heater method (THM) grown CZT detectors, recently developed at IMEM-CNR Parma, Italy. Thick planar detectors (3 mm thick) with gold electroless contacts on CZT crystals grown by Redlen Technologies (Victoria BC, Canada) were realized, with a planar cathode covering the detector surface (4.1 x 4.1 mm(2)) and a central anode (2 x 2 mm(2)) surrounded by a guard ring electrode. The detectors, characterized by low leakage currents at room temperature (4.7 nA/cm(2) at 1000 V/cm), allow good room temperature operation even at high bias voltages (> 7000 V/cm). At low rates, the detectors exhibit an energy resolution around 4 % FWIEM at 59.5 keV (Am-241 source) up to 2200 V, by using a commercial front-end electronics (A250F/NF charge sensitive preamplifier, Amptek, USA; nominal equivalent noise charge ENC of 100 electrons RMS). At high rates (1 Mcps), the detectors, coupled to a custom-designed digital pulse processing electronics developed at DiFC of University of Palermo (Italy), show low spectroscopic degradations: energy resolution values of 8 % and 9.7 % FWFIM at 59.5 keV (241 Am source) were measured, with throughputs of 0.4 % and 60 % respectively. These activities are in the framework of an Italian research project on the development of energy-resolved photon counting (ERPC) systems for high flux energy-resolved X-ray imaging.

Published

2016

22. Haptic guided UAV for detection of radiation sources in outdoor environments

Author

Nicola Zambelli, Jacopo Aleotti, Giorgio Micconi, Stefano Caselli, Andrea Zappettini, and G. Benassi

Subjects

Engineering, business.industry, Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Radiation, AERIAL, TELEOPERATION, Visualization, Power (physics), Sight, Operator (computer programming), Teleoperation, business, Simulation, Haptic technology

Abstract

This work proposes a haptic teleoperation system of an unmanned aerial vehicle (UAV) aimed at localizing radiation sources in outdoor environments. Radiation sources are localized and identified by equipping the UAV with a CdZnTe-based custom X-ray detector providing light, compact, and low power operation. The UAV is guided in direct sight by the operator. The system allows exploration of potentially dangerous areas without a close exposure of the human operator. The operator is able to provide motion commands to the UAV while receiving force feedback from a 3DOF haptic interface. Force feedback provides an attractive basin around the location of the most intense detected radiation. Preliminary experiments have been conducted to test the elements of the system.

Published

2015

23. Unmanned aerial vehicle equipped with spectroscopic CdZnTe detector for detection and identification of radiological and nuclear material

Author

G. Benassi, Andrea Zappettini, Nicola Zambelli, Manuele Bettelli, Giorgio Micconi, M. Zanichelli, Davide Calestani, Jacopo Aleotti, and Stefano Caselli

Subjects

Engineering, business.industry, radioactive materials, Detector, medical imaging, feedback, haptic interfaces, Nuclear material, gamma rays, Identification (information), Operator (computer programming), Radiological weapon, Teleoperation, Gamma ray detectors, Computer vision, Artificial intelligence, business, Haptic technology, unmammed aerial vehicles (UAV)

Abstract

Localization and identification of nuclear and radiological material are main issues in case of nuclear accident or terrorist attack. In these cases, the use of a unmanned aerial vehicle would be highly recommended in order to preserve the safety of the human operators. For this purpose, we have integrated a compact, light, low power operating, CZT-based gamma ray detector on a commercially available UAV. The system allows exploration of potentially dangerous areas without a close exposure of the human operator. The operator is able to provide motion commands to the UAV while receiving force feedback from a 3DOF haptic interface. Force feedback provides an attractive basin around the location of the most intense detected radiation. A field experiment has been carried out and a 192Ir nuclear source has been localized and identified exploiting the novel teleoperation system.

Published

2015

24. High energy resolution pixel detectors based on boron oxide vertical Bridgman grown CdZnTe crystals

Author

Davide Calestani, Nicola Zambelli, Yongbiao Shi, Giuseppe Bertuccio, Giuseppe Rotondo, Andrea Zappettini, Bruno Garavelli, G. Benassi, Pietro Pozzi, M. Ahangarianabhari, and D. Macera

Subjects

Materials science, Pixel, business.industry, ASIC, Detector, Semiconductor radiation detectors, ASIC, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, chemistry.chemical_element, Polarization (waves), Temperature measurement, Electronic mail, chemistry, Boron oxide, Semiconductor radiation detectors, Optoelectronics, Boron, business, Realization (systems)

Abstract

CdZnTe crystals are used for the realization of X-ray detectors. In particular, pixel detectors can be exploited for many application fields such as medical diagnostics, security, and industrial inspection. In the last years, CdZnTe crystals have routinely been grown by the boron oxide encapsulated vertical Bridgman technique. In this work, it is shown that linear array detectors have been prepared based on this material. The detectors show low leakage current and have been coupled to a specifically designed research-grade low noise ASIC. The detectors show good spectroscopic characteristics and no polarization effects, meeting the requirements for the realization of high throughput, multi-energy scanners.

Published

2014

25. A 3D CZT high resolution detector for x- and gamma-ray astronomy

Author

Emrah Kalemci, John B. Stephen, Irfan Kuvvetli, Natalia Auricchio, Nicola Zambelli, G. Benassi, Carl Budtz-Jørgensen, Andrea Zappettini, and Ezio Caroli

Subjects

Physics, Physics::Instrumentation and Detectors, business.industry, Detector, Synchrotron radiation, STRIPS, Capacitance, Noise (electronics), Cathode, Collimated light, law.invention, Anode, Optics, law, business

Abstract

At DTU Space we have developed a high resolution three dimensional (3D) position sensitive CZT detector for high energy astronomy. The design of the 3D CZT detector is based on the CZT Drift Strip detector principle. The position determination perpendicular to the anode strips is performed using a novel interpolating technique based on the drift strip signals. The position determination in the detector depth direction, is made using the DOI technique based the detector cathode and anode signals. The position determination along the anode strips is made with the help of 10 cathode strips orthogonal to the anode strips. The position resolutions are at low energies dominated by the electronic noise and improve therefore with increased signal to noise ratio as the energy increases. The achievable position resolution at higher energies will however be dominated by the extended spatial distribution of the photon produced ionization charge. The main sources of noise contribution of the drift signals are the leakage current between the strips and the strip capacitance. For the leakage current, we used a metallization process that reduces the leakage current by means of a high resistive thin layer between the drift strip electrodes and CZT detector material. This method was applied to all the proto type detectors and was a very effective method to reduce the surface leakage current between the strips. The proto type detector was recently investigated at the European Synchrotron Radiation Facility, Grenoble which provided a fine 50 × 50 μm2 collimated X-ray beam covering an energy band up to 600 keV. The Beam positions are resolved very well with a ~ 0.2 mm position resolution (FWHM ) at 400 keV in all directions.

Published

2014

26. Development of a CZT spectroscopic 3D imager prototype for hard X ray astronomy

Author

A. Basili, Natalia Auricchio, R. M. Curado da Silva, G. Benassi, L. Milano, Filomena Schiavone, Nicola Zambelli, S. Del Sordo, A. Zappettini, Irfan Kuvvetli, Carl Budtz-Jørgensen, Ezio Caroli, Francesca Moscatelli, and John B. Stephen

Subjects

Physics, Physics::Instrumentation and Detectors, business.industry, Detector, Voltage divider, Astrophysics::Instrumentation and Methods for Astrophysics, STRIPS, Polarization (waves), law.invention, Lens (optics), Data acquisition, Optics, Application-specific integrated circuit, law, Electronics, business

Abstract

The development of focusing optics based on wide band Laue lenses operating from ∼60 keV up to several hundreds of keV is particularly challenging. This type of hard X-ray or gamma ray optics requires a high performance focal plane detector in order to exploit to the best its intrinsic capabilities. We describe a three dimensional (3D) position sensitive detector prototype suitable for use as the basic module for a high efficiency Laue lens focal plane detector. This detector configuration is currently under study for use in a balloon payload dedicated to performing a high significance measurement of the polarization status of the Crab nebula/pulsar between 100 and 500 keV. The prototype is made by packing 8 linear modules, each composed of one basic sensitive unit bonded onto a thin supporting ceramic layer. Each unit is a drift strip detector based on a CZT crystal, irradiated transversally to the electric field direction. The anode is segmented into 8 detection cells, each comprising one collecting strip and 8 surrounding drift strips. The drift strips are biased by a voltage divider. The cathode is divided into 4 horizontal strips for the reconstruction of the Z interaction position. The detector readout electronics is based on three RENA-3 ASICs and the data handling system uses custom electronics based on an FPGA to provide the ASIC setting, the event handling logic and the data acquisition. We will describe the components and the status of the ongoing activities for the assembling of the proposed 3D CZT prototype and the result of the first performance tests on the CZT linear modules.

Published

2013

27. Development status of a CZT spectrometer prototype with 3D spatial resolution for hard x-ray astronomy

Author

A. Zappettini, Irfan Kuvvetli, Natalia Auricchio, M. Zanichelli, Francesca Moscatelli, G. Benassi, L. Milano, A. Basili, C. Budtz Jørgensen, John B. Stephen, Ezio Caroli, R. M. Curado da Silva, and S. Del Sordo

Subjects

Physics, Spectrometer, Geometrical optics, Physics::Instrumentation and Detectors, business.industry, Detector, Voltage divider, STRIPS, law.invention, Lens (optics), Optics, Data acquisition, law, business, Position sensor

Abstract

The development of new focusing optics based on wide band Laue lenses operating from ~60 keV up to several hundred keV is particularly challenging. This type of hard X-ray or gamma ray optics requires a high performance focal plane detector in order to exploit to the best their intrinsic capabilities. We describe a three dimensional (3D) position sensitive detector prototype suitable as the basic module for a high efficiency Laue lens focal plane detector. This detector configuration is currently under study for use in a balloon payload dedicated to performing a high significance measurement of the polarization status of the Crab between 100 and 500 keV. The prototype is made by packing 8 linear modules, each composed of one basic sensitive unit bonded onto a thin supporting ceramic layer. Each unit is a drift strip detector based on a CZT crystal, irradiated transversally to the electric field direction. The anode is segmented into 8 detection cells, each comprising one collecting strip and 8 surrounding drift strips. The drift strips are biased by a voltage divider. The cathode is divided into 4 horizontal strips for the reconstruction of the Z interaction position. The detector readout electronics is based on RENA-3 ASIC and the data handling system uses a custom electronics based on FPGA to provide the ASIC setting, the event handling logic, and the data acquisition. This paper mainly describes the components and the status of the undergoing activities for the construction of the proposed 3D CZT prototype and shows the results of the electronics tests.

Published

2012

28. Electroless gold contact deposition on CdZnTe detectors by scanning pipette technique

Author

Nicola Zambelli, G. Benassi, Ezio Caroli, A. Zappettini, L. Marchini, and Davide Calestani

Subjects

Materials science, Detector, Pipette, X-ray detector, Nanotechnology, X-ray detectors, law.invention, law, Deposition (phase transition), CdZnTe, Photolithography, Solid state detectors, Detector design and construction technologies and materials, scanning pipette, Instrumentation, Mathematical Physics

Abstract

Gold electroless contacts are commonly used for the preparation of CdZnTe-based detectors. In this work it is shown that it is possible to deposit electroless patterned contacts on CdZnTe detectors without the use of photolithography by means of the scanning pipette technique. The technique is based on the delivery of gold chloride solution by means of a pipette moved by micro-controlled motors. The obtained detectors show optimal current-voltage characteristics and good spectroscopic response.

Published

2012

29. A 3D CZT High Resolution Detector for X-and gamma-ray applications

Author

Natalia Auricchio, Ezio Caroli, Carl Budtz-Jørgensen, G. Benassi, Andrea Zappettini, Nicola Zambelli, Irfan Kuvvetli, and John B. Stephen

Subjects

Materials science, Physics::Instrumentation and Detectors, business.industry, Detector, Gamma ray, High resolution, Condensed Matter Physics, Biochemistry, Inorganic Chemistry, Optics, Structural Biology, General Materials Science, Physical and Theoretical Chemistry, business

Abstract

A high resolution three dimensional (3D) position sensitive CdZnTe-based detector was developed to detect high energy photons (10 keV-1MeV). The design of the 3D CZT detector, developed at DTU Space, is based on the CZT Drift Strip detector principle. The prototype detector contains 12 drift cells, each comprising one collecting anode strip with 3 drift strips, biased such that the electrons are focused and collected by the anode strips. The anode pitch is 1.6mm. The position determination perpendicular to the anodes, the X-direction, is performed using a novel interpolating technique. The position determination along the detector depth direction, Y-direction, is made using the depth sensing technique. The position determination along the anode strips, Z-direction is made with the help of 10 cathode strips orthogonal to the anode strips. REDLEN CZT crystals (20 mm x 20 mm x 5 mm) were used for the proto type detectors. IMEM-CNR fabricated the proto type detectors using a special surface treatment method and electrode attachment process. A novel method was applied to reduce the surface leakage current between the strips. The proto type detector was investigated at the European Synchrotron Radiation Facility, Grenoble which provided a fine 50 x 50 μm2 collimated X-ray beam covering an energy band up to 600 keV. At 400 keV we measured position resolutions of 0.2 mm FWHM in the X- and Y-direction and 0.6 mm FWHM in the Z-direction. The measured energy resolution of the detector was ~5.5 keV FWHM at 400 keV. The electronic noise contribution of the detector setup was 3.7 keV FWHM . The detector provides 3D position with very good spatial resolution as well as high resolution energy information and is therefore a well suited candidate e.g. as a Compton telescope detector, or for any application fields (medicine, security, science) where imaging and spectroscopy of high energy photons in the 10keV-1MeV range are required.

Published

2014