Your search keyword '"micro-channel plates"' showing total 13 results

1. Propagation of synchrotron radiation through double microchannel plate device: Comparison of experimental data and wave-approach simulation.

Author

Mazuritskiy, M.I., Marcelli, A., Dabagov, S.B., Lerer, A.M., D'Elia, A., Rezvani, S.J., Mohamed, A.E.A., Galdenzi, F., Cautero, M., de Simone, M., and Coreno, M.

Subjects

*MICROCHANNEL plates, *DIFFRACTION patterns, *OPTICAL devices, *COHERENT scattering, *X-ray optics, *SYNCHROTRON radiation

Abstract

Since third-generation synchrotron radiation facilities are highly brilliant sources, the scattering of a partially coherent beam gives rise to strong interference effects. We present and discuss in this contribution the comparison of simulated and experimental diffraction patterns collected with an optical device made by two identical flat Micro Channel Plates (MCPs) illuminated by synchrotron radiation at different energies. The experimental patterns clearly show the increase of the density of the main peak with respect to those collected with a single flat MCP. Data demonstrate that the use of a device based on two MCPs is an ideal optical system to condense the primary radiation in a narrow intense central peak. [ABSTRACT FROM AUTHOR]

Published

2024

2. An internal ALD-based high voltage divider and signal circuit for MCP-based photodetectors.

Author

Adams, Bernhard W., Elagin, Andrey, Elam, Jeffrey W., Frisch, Henry J., Genat, Jean-Francois, Gregar, Joseph S., Mane, Anil U., Minot, Michael J., Northrop, Richard, Obaid, Razib, Oberla, Eric, Vostrikov, Alexander, and Wetstein, Matthew

Subjects

*HIGH voltages, *PHOTODETECTORS, *ELECTRICAL resistivity, *PHOTOCATHODES, *ATOMIC layer deposition, *BANDWIDTHS

Abstract

We describe a pin-less design for the high voltage (HV) resistive divider of the all-glass LAPPD TM 8 in.-square thin photodetector module. The divider, which distributes high voltage applied to the photocathode to the two micro-channel plates (MCPs) that constitute the amplification stage, is comprised of the two MCPs and three glass mechanical spacers, each of which is coated with a resistive layer using atomic layer deposition (ALD). The three glass grid spacers and the two MCPs form a continuous resistive path between cathode and anode, with the voltages across the MCPs and the spacers determined by the resistance of each. High voltage is applied on an external tab on the top glass window that connects to the photocathode through the metal seal. The DC ground is supplied by microstrips on the bottom glass plate that form the high-bandwidth anode. The microstrips exit the package through the glass-frit seal of the anode base-plate and the package sidewall. The divider is thus completely internal, with no HV pins penetrating the low-profile flat glass package. Measurements of the performance of the divider are presented for the 8 in.-square MCP and spacer package in a custom test fixture and for an assembled externally pumped LAPPD TM prototype with an aluminum photocathode. [ABSTRACT FROM AUTHOR]

Published

2015

3. The PLanetary extreme Ultraviolet Spectrometer Project

Author

Marco Carminati, Giorgio Toso, S. Incorvaia, Carlo Fiorini, Maria Guglielmina Pelizzo, A. J. Corso, Marco Bazzan, M. Fiorini, Giovanni Luca Santi, Edoardo Fabbrica, Gianluigi Maggioni, Michela Uslenghi, and Giulio Favaro

Subjects

Physics, Time delay and integration, Spectrometer, business.industry, Dynamic range, Extreme ultraviolet lithography, Application specific integrated circuit, Gratings, Micro-channel plates, Ultraviolet, Solar physics, Interstellar medium, Optics, Extreme ultraviolet, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, business, Spectrograph

Abstract

Spectroscopic observations in the vacuum (VUV, 115-200 nm) and extreme ultraviolet (EUV, 40-115 nm) is of fundamental importance in solar physics, in the physics of interstellar medium, in the study of planetary exospheres. The PLUS project is focused on the development of a high performance spectrograph for the observations of planetary exospheres in the 55-200 nm range. The instrument layout is based on a two channels (VUV/EUV) design. It will be characterized by improved detection limit, shorter observations integration time and unprecedented performance in terms of dynamic range. Such characteristics will be obtained thanks to the development and combination of two key technologies: high efficiency optical components optimized for each channel and high resolution/dynamic range solar blind photon counting detector. The photon counting detector will be based on a Micro-Channel Plate coupled with ROIC ASIC read out system.

Published

2021

4. PLanet extreme ultraviolet spectrometer project

Author

Pelizzo, M. G., Corso, A. J., Santi, G., Uslenghi, M., Fiorini, M., Incorvaia, S., Toso, G., Fabbrica, E., Carminati, M., Fiorini, C., Favaro, G., Bazzan, M., and Maggioni, G.

Subjects

Application specific integrated circuit, Gratings, Spectrometer, Micro-channel plates, Ultraviolet

Published

2021

5. The new Heavy-ion MCP-based Ancillary Detector DANTE for the CLARA-PRISMA Setup.

Author

Valiente-Dobón, J. J., Gadea, A., Brambilla, S., Kondratiev, N. A., Beghini, S., Corradi, L., De Angelis, G., Della Vedova, F., Farnea, E., Fioretto, E., Kozulin, E. M., Lunardi, S., Marginean, N., Montagnoli, G., Napoli, D. R., Orlandi, R., Pokrovsky, I., Sahin, E., Stefanini, A. M., and Szilner, S.

Subjects

*HEAVY ions, *DEEP inelastic collisions, *DETECTORS, *PARTICLES (Nuclear physics), *SPECTROMETERS

Abstract

The CLARA-PRISMA setup is a powerful tool for spectroscopic studies of neutron-rich nuclei produced in multi-nucleon transfer and deep-inelastic reactions. It combines the large acceptance spectrometer PRISMA with the γ-ray array CLARA. At present, the ancillary heavy-ion detector DANTE, based on Micro-Channel Plates to be installed at the CLARA-PRISMA setup, is being constructed at LNL. DANTE will open the possibility of measuring γ-γ Doppler-corrected coincidences for the events outside the acceptance of PRISMA. In this presentation, it is described the heavy-ion detector DANTE, as well as the performances of the first prototype. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2006

6. A timing detector with pulsed high-voltage power supply for mass measurements at CSRe.

Author

Zhang, W., Tu, X.L., Wang, M., Zhang, Y.H., Xu, H.S., Litvinov, Yu. A., Blaum, K., Chen, X.C., Hu, Z.G., Huang, W.J., Ma, X.W., Mao, R.S., Mei, B., Shuai, P., Sun, B.H., Yamaguchi, T., Xia, J.W., Xiao, G.Q., Xu, X., and Yan, X.L.

Subjects

*NUCLEAR track detectors, *POWER resources, *ATOMIC mass, *STORAGE rings, *MICROCHANNEL plates

Abstract

Abstract: Accuracy of nuclear mass measurements in storage rings depends critically on the accuracy with which the revolution times of stored ions can be obtained. In such experiments, micro-channel plates (MCP) are used as timing detectors. Due to large phase space of injected secondary beams, a large number of ions cannot be stored in the ring and is lost within the first few revolutions. However, these ions interact with the detector and can saturate the MCP and thus deteriorate its performance. In order to eliminate such effects, a fast, pulsed high-voltage power supply (PHVPS) has been employed which keeps the detector switched-off during the first few revolutions. The new detector setup was taken into operation at the Experimental Cooler-Storage-Ring CSRe in Lanzhou and resulted in a significant improvement of the detector amplitude and efficiency characteristics. [Copyright &y& Elsevier]

Published

2014

7. Position Sensing Using Pico-Second Timing With Micro-Channel Plate Devices and Waveform Sampling.

Author

Byrum, Karen, Frisch, Henry J., Genat, Jean-Francois C., Heintz, Mary K., May, Edward N., Natoli, Tyler, Tang, Fukun, and Yurtsev, Eugene

Subjects

*MICRO Channel (Computer bus), *COMPUTER buses, *ELECTRIC lines, *TIME measurements, *SYNCHRONIZATION

Abstract

Micro-Channel Plate devices (MCP) provide fast signals with rise-times in the 100 ps regime. The coupling of the MCP anode plane to 50 Ω transmission lines allows both a precise time measurement and additionally the potential for a position measurement with an accuracy of a few hundred microns for large-area devices. We present position measurement results obtained with MCPs from Photonis, 10-cm long transmission lines, and a calibrated laser source, using waveform processing after digitization. A detailed simulation of the transmission lines is also presented, including simulation results for transmission lines up to 1-m in length.We compare the measured position resolution for two identical setups but with MCPs of different pore diameters: 25 and 10 microns. [ABSTRACT FROM AUTHOR]

Published

2010

8. Development of Picosecond-Resolution Large-Area Time-of-Flight Systems.

Author

Ertley, Camden, Anderson, John, Byrum, Karen, Drake, Gary, Frisch, Henry, Genat, Jean-Francois, Sanders, Harold, and Fukun Tang

Subjects

*COLLIDERS (Nuclear physics), *PARTONS, *DETECTORS, *PHOTOMULTIPLIERS, *TUBES, *ANODES, *ELECTRODES, *PARTICLES (Nuclear physics), *RELATIVITY (Physics), *ENGINEERING instruments, *PHYSICS instruments

Abstract

The measurement of time-of-flight (TOF) of relativistic particles in high-energy colliders with picosecond resolution would qualitatively change the ability to identify underlying parton-level processes at future colliders or upgrades of existing detectors. We have measured the timing properties of three micro-channel plate photo-multiplier tubes (MCPPMTs) from Photonis; one with 1024 anodes and the other two with 64 anodes. The 1024-anode 10-micron pore tube uses a charge-collection scheme at the anode to provide equal arrival time of the signal independent of the hit position of incident light on the face of the tube. The two 64-anode 25-micron pore tubes have a commercially available collection scheme and were used to find a limit on the timing resolution. We have performed these measurements using a newly assembled test-stand based on a Hamamatsu PLP-10 picosecond laser and a commercial CAMAC readout electronics system. We present these results and compare timing properties to earlier versions of the charge collection scheme. [ABSTRACT FROM AUTHOR]

Published

2009

9. The large-area micro-channel plate entrance detector of the heavy-ion magnetic spectrometer PRISMA

Author

Montagnoli, G., Stefanini, A.M., Trotta, M., Beghini, S., Bettini, M., Scarlassara, F., Schiavon, V., Corradi, L., Behera, B.R., Fioretto, E., Gadea, A., Latina, A., Szilner, S., Donà, L., Rigato, M., Kondratiev, N.A., Chizhov, A. Yu., Kniajeva, G., Kozulin, E.M., and Pokrovskiy, I.V.

Subjects

*DETECTORS, *SPECTROMETERS, *ELECTRONS, *PARTICLES (Nuclear physics)

Abstract

Abstract: This paper describes the entrance detector of the magnetic spectrometer PRISMA recently installed at Legnaro. The detector is based on rectangular () Micro-Channel Plates (MCP). It provides a fast time signal and its position-sensitive anode allows to extract the and information. It exploits an electrostatic field for the acceleration of secondary electrons from a thin Carbon foil () onto the MCP assembly. The electrons are guided by a parallel magnetic field. Good performances were obtained in the laboratory tests. The detector is presently installed at the entrance of PRISMA and gives resolutions in time, and 1mm in both and -axes, with efficiency , in typical experiments with heavy-ion beams. [Copyright &y& Elsevier]

Published

2005

10. Position-sensitive vacuum photon detectors.

Author

Gys, Thierry and Joram, Christian

Subjects

*PHOTON detectors, *MICROCHANNEL plates, *CHERENKOV radiation, *VACUUM, *LARGE Hadron Collider

Abstract

This article reviews the principles, performance and limitations of position-sensitive vacuum photon detectors which find applications in high-energy physics experiments. Particular emphasis is devoted to multi-anode photo-multiplier tubes, devices based on micro-channel plates and hybrid photon detectors. Over the past 25 years, innovation in industrial environments, research centres and universities has led to the invention and consequent optimization of a number of position-sensitive photon detectors. Miniaturization of known principles and components or the smart combination of established concepts allowed to build new classes of finely-segmented photodetectors which in turn enabled new applications in high-energy physics, but also elsewhere. The imaging of Cherenkov light in hostile hadron environments like at the CERN Large Hadron Collider is perhaps one of the most demanding applications which would not have been possible without this breakthrough. [ABSTRACT FROM AUTHOR]

Published

2020

11. Design and performance of micro-channel plate based particle tracking detector for astrophysical ([formula omitted], p) reactions.

Author

Liu, Tong, Xu, Zhiguo, Mao, Ruishi, Yuan, Youjin, Yao, Ze'en, Yao, Liping, Hu, Jun, Li, Juan, Feng, Yongchun, Ding, Jiajian, and Liu, Fengqiong

Subjects

*MICROCHANNEL plates, *PARTICLE detectors, *IRON & steel plates, *RADIOACTIVE nuclear beams, *ELECTROSTATIC fields

Abstract

The micro-channel plate based particle tracking detector described here is part of the detector system used in a series of measurements of astrophysical (α , p) reactions, which will be studied at the Radioactive Ion Beam Line in Lanzhou, China. This detector will provide on a particle-by-particle basis tracking information and arrival time of radioactive beams with intensities up to 1 0 5 particles per second. The key requirements of the experiments to the detector are that the spatial resolution is below 1 mm, the time resolution is better than 1 ns and the energy loss is less than for a parallel plate avalanche counter. The current prototype is composed of two micro-channel plate detectors with a compact electrostatic field construction and a delay-line readout. Based on the results of α -particle tests, one micro-channel detector can achieve a position resolution of 552 μ m full width at half maximum on the x axis and 735 μ m on the y axis. The tracking system can achieve 705 ps time resolution and can cope with a beam intensity of up to 5 × 1 0 6 particles per second. [ABSTRACT FROM AUTHOR]

Published

2020

12. Study and test of micro-channel plates used in the dual ion spectrometer of the MMS mission by NASA

Author

Mrigakshi, Alankrita Isha

Subjects

and Instrumentation, Technology, MCP Characteristics, Physics::Instrumentation and Detectors, Assembly, Ion Spectrometer, Space Physics, Electrostatic Analysers, Teknik, Magnetospheric Multiscale Mission, Ion Detector, Micro-channel Plates, Dual, High Energy Physics::Experiment, Magnetic Reconnection, Quardupole Mass Spectrometer, and Applications

Abstract

The Magnetospheric Multiscale mission led by NASA has been designed to study the micro-physics of Magnetic Reconnection in Earth's magnetosphere by using four identical spacecrafts with instruments with high temporal and spatial resolutions. Among these instruments are the Dual Ion Spectrometers (DIS) engineered to measure the 3D distribution of ion flux in space. The detector assembly of the DIS consists of Micro-Channel Plates (MCP) mounted in Chevron configuration. Centre d'Etude Spatiale des Rayonnements (CESR), Toulouse is responsible for the provision and testing of all fifty MCP pairs for this mission. The goal of the work was to participate in the testing and characterization of the first prototype of the MCPs. It was achieved by understanding the working and characteristics of the MCPs in general and getting familiar with the detector assembly of the DIS i.e. the MCP pair and the detector circuit board in particular. To perform the testing, it was necessary to understand the testing system as well. These topics are described in this report along with the testing procedure and the data analysis. The testing procedure was developed eventually after facing several problems during the testing. MCP pair characteristics like pulse height distributions, gain, resistance and the MCP operating voltages for the mission were determined on analyzing the data. Crosstalk was found in the circuit board of the detector assembly and has also been discussed. Validerat; 20101217 (root)

Published

2008

13. L'Effet Hanbury Brown et Twiss pour les Atomes Froids

Author

Schellekens, Martijn, laboratoire Charles Fabry de l'Institut d'Optique / Optique atomique, Laboratoire Charles Fabry de l'Institut d'Optique (LCFIO), 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)-Université Paris-Sud - Paris 11 (UP11), Université Paris Sud - Paris XI, and Christoph Westbrook(christoph.westbrook@institutoptique.fr)

Subjects

Condensed Matter::Quantum Gases, micro-channel plates, Bose-Einstein condensate, [PHYS.PHYS.PHYS-ATOM-PH]Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph], atomes froids, fermion, metastable Helium, Hanbury Brown et Twiss, cold atoms, Hanbury Brown and Twiss, condensat de Bose-Einstein, galettes à micro-canaux, delay-lines, boson, helium Métastable, corrélations, lignes à retard

Abstract

This thesis deals with the measurement of the quantum intensity correlations in gases of métastable Helium. The measurement has been performed on thermal gases of bosonic 4He and fermionic 3He, as well as on Bose-Einstein condensates.In 1956, Robert Hanbury Brown et Richard Twiss measured the correlation between photons emitted from a single thermal source. The consequently demonstrated that the photons emitted by such a source tend to arrive grouped on a detector. This bunching characterises bosons from a non-coherent source. Fermions show an anti-bunching behaviour in the same conditions.By using metastable Helium atoms, that can be detected individually through the use of micro-channel plates, we have been able to show a similar bunching of bosons 4He from thermal sources around the microkelvin. As expected, the coherence of the Bose-Einstein condensates did not produce a particular correlation. The measurement on thermal gases of fermionic 3He has demonstrated the anti-bunching. Particular effort has been employed in describing the micro-channel plates based delay-line detector, the key to the experiment.; Cette thèse détaille la mesure des corrélations d'intensité quantiques dans des gaz d'hélium métastable. La mesure s'est opérée sur des gaz thermiques bosoniques 4He et fermioniques 3He, ainsi que sur des condensats de Bose-Einstein.En 1956, Robert Hanbury Brown et Richard Twiss ont mesuré la corrélation entre des photons provenant d'une même source thermique. Ils avaient ainsi mis en évidence que les photons emis par une telle source arrivaient préférentiellement groupés sur le détecteur. Ce groupement charactérise les bosons provenant d'une source non-cohérente. Les fermions manifestent un anti-groupement dans les mêmes conditions.En utilisant des atomes d'hélium métastables, dont l'utilisation de galettes de micro-canuax facilite la détection individuelle, nous avons pu mettre en évidence un regroupement similaire des bosons 4He provenant de sources thermiques de l'ordre du microkelvin. La cohérence des condensats de Bose-Einstein n'a pas permis de dégager une corrélation particulière, comme attendue. Une mesure sur des gaz thermiques des fermions 3He a permis de mettre en évidence leur anti-groupement. Un soin particulier a été pris pour décrire le détecteur à base de galettes de microcanaux et de lignes à retard, une des clés de la réussite de la mesure.

Published

2007