tipp2014 January 2014

tipp2014@nikhef.nl

17 participants
185 discussions

[Tipp2014] [Indico] New abstract submission: ANZIVINO, Giuseppina
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

The following email has been sent to ANZIVINO, Giuseppina: === Dear Giuseppina Anzivino, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=89&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: ANZIVINO, Giuseppina Submitted on: 30 January 2014 08:10 Title: The RICH detector of the NA62 experiment at CERN Abstract content NA62 is the last generation kaon experiment at CERN. Its main goal is to measure the branching ratio of the ultra-rare decay K+→π+ννbar with 10% accuracy and background contamination at the 10% level. Given the tiny branching ratio of this decay, O(10E-10), to fulfil such request the main background process K+→μ+ν (BR ~63%) must be suppressed by a rejection factor of 4x10E-13. This is accomplished by using a combination of kinematical cuts (8x10E-6), the different power of penetration through matter of pion and muon (10E-5) and a further 5x10E-3 suppression factor provided by a RICH detector in the momentum range 15-35 GeV/c. The RICH consists of a vacuum-proof cylindrical vessel with 4 m diameter, about 18 m long, filled with Ne gas at atmospheric pressure. The Cherenkov light is reflected by a mosaic of 20 hexagonal mirrors with 17 m focal length and collected by about 2000 photomultipliers. The RICH will provide the pion crossing time with a resolution of ~100 ps, to minimize wrong matching with parent kaons measured by an upstream detector and also used as a fast information to the NA62 trigger system. The construction of the detector is almost completed in view of the first NA62 run, foreseen in fall 2014. New and final results of the prototype tests at CERN, an updated description of the detector and the status of the construction, installation and commissioning will be presented, as well as the status of the RICH based customized readout electronics and trigger system. Summary Primary Authors: ANZIVINO, Giuseppina (University of Perugia and INFN (IT)) <giuseppina.anzivino(a)pg.infn.it> Co-authors: Abstract presenters: ANZIVINO, Giuseppina Track classification: Sensors: 1c) Gaseous Detectors Experiments: 2a) Experiments & Upgrades Presentation type: --not specified-- Comments:

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[Tipp2014] [Indico] New abstract submission: BOSCHERINI, Davide
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

The following email has been sent to BOSCHERINI, Davide: === Dear Davide Boscherini, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=88&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: BOSCHERINI, Davide Submitted on: 30 January 2014 08:10 Title: The user infrastructure of the new Gamma Irradiation Facility at CERN Abstract content Performance and aging of the detectors to be used during the LHC high-luminosity running have to be studied under the severe background conditions they will be exposed to. Hence the need to use a facility where a high energy particle beam or cosmic rays can be used while the detectors under test are subjected to a high particle flux. The new Gamma Irradiation Facility (GIF++) in preparation at CERN will cover an area of about 170 m2 with a height of 4.8 m and is expected to be completed by the end of 2014. It will be equipped with a 14 TBq 137-Cs source and will benefit of a muon beam with E>100 GeV for 6-8 weeks/year. The facility will be instrumented with the user infrastructure necessary to operate and test detectors, consisting in systems for detector control and monitoring, environmental and radiation sensors, a beam tracker and a large area cosmic ray test stand. A common DAQ system will be also provided. The above infrastructure, being built within the AIDA framework, is presented in this paper. The characteristics and potentialities of all of its systems are described, together with their level of flexibility and the information which will be available to the users. Summary Primary Authors: BOSCHERINI, Davide (Universita e INFN (IT)) <davide.boscherini(a)cern.ch> Co-authors: Abstract presenters: BOSCHERINI, Davide Track classification: Experiments: 2a) Experiments & Upgrades Presentation type: --not specified-- Comments: Abstract submitted on behalf of the AIDA WP-8.5.3 members

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[Tipp2014] [Indico] New abstract submission: MARTIN, Karina
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

The following email has been sent to MARTIN, Karina: === Dear Karina Martin, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=87&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: MARTIN, Karina Submitted on: 30 January 2014 06:04 Title: Aerogel Cherenkov counters for experiments at VEPP-2000 e+e- collider with SND detector Abstract content For experiments at VEPP-2000 e+e- collider with SND detector the particle identification system based on the threshold aerogel Cherenkov counters was developed. The counter design is based on ASHIPH technique (Aerogel, SHifter, PHotomultiplier). Cherenkov light emitted in aerogel is collected by a wavelength shifter and detected by a photomultiplier tube based on microchannel plates (MCP PMT). For the particle identification two systems with different refractive indexes of aerogel were manufactured: with n=1.13 for the separation of pi and K mesons up to particle energy of 1 GeV and with n=1.05 for e/pi separation up to particle energy of 0.45 GeV. The construction of the aerogel Cherenkov counter is described. Main characteristics of counters measured using particles (e, mu, pi, K) produced in e+e- annihilation are presented. Summary Experiments at the VEPP-2000 e+e- collider with upgraded SND detector have been started in the Budker Institute of Nuclear Physics (Novosibirsk, Russia) in 2010. The designed parameters of VEPP-2000 are the following: center-of-mass energy is up to 2 GeV, luminosity is 10^32 cm^-2s^-1. Development of the new particle identification system based on the threshold aerogel Cherenkov counters was a part of the SND upgrade. The counter design is based on ASHIPH technique (Aerogel, SHifter, PHotomultiplier). Cherenkov light emitted in aerogel is collected by a wavelength shifter, re-emited and transported to the photocathode. A microchannel plate photomultiplier tube (MCP PMT) with multialkali photocathode is chosen as a photodetector. For the particle identification at different energies two systems with different refractive indexes of aerogel were manufactured: with n=1.13 for the separation of pi and K mesons up to particle energy of 1 GeV and with n=1.05 for e/pi separation up to particle energy of 0.45 GeV. The system with n=1.13 was calibrated with particles (e, mu, pi, K) produced in e+e- collisions. The signal magnitude from ultrarelativistic electron is 6-8 photoelectrons. This system provides pion suppression by more than two orders of magnitude in the momentum range from 0.35 to 1.00 GeV/c. The measurements of characteristics of system with n=1.05 have been done using particles from e+e->e+e- and e+e->mu+mu- reactions. The average signal from electrons is 3.5 photoelectrons. Primary Authors: MARTIN, Karina (Budker Institute of Nuclear Physics) <martincarina(a)mail.ru> Co-authors: Prof. SEREDNYAKOV, Sergey (Budker Institute of Nuclear Physics) <seredn(a)inp.nsk.su> BELOBORODOV, Konstantin (Budker Institute of Nuclear Physics) <k.i.beloborodov(a)inp.nsk.su> Dr. GOLUBEV, Vladimir (Budker Institute of Nuclear Physics) <golubev(a)inp.nsk.su> Abstract presenters: MARTIN, Karina Track classification: Sensors: 1d) Photon Detectors Sensors: 1e) Novel technologies Presentation type: --not specified-- Comments:

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[Tipp2014] [Indico] New abstract submission: Prof. MAZUMDAR, Kajari
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

The following email has been sent to Prof. MAZUMDAR, Kajari: === Dear Kajari Mazumdar, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=86&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: Prof. MAZUMDAR, Kajari Submitted on: 30 January 2014 03:59 Title: Planar silicon sensors for the CMS Tracker phase II upgrade Abstract content The CMS tracker collaboration is aiming to identify the best suited silicon materials and sensor thicknesses for future tracking detectors for the high luminosity phase of the Large Hadron Collider (HL-LHC). Therefore, a large material investigation and irradiation campaign was initiated. A variety of silicon $p-in-n$ and $n-in-p$ test-sensors made from Float Zone (FZ), Magnetic Czochralski (MCz) and epitaxially grown (Epi) materials were manufactured in different sensor thicknesses by one single industrial producer (Hamamatsu Photonics K.K.).The samples have been irradiated with 1 MeV neutrons, protons and subsequently with both particle types corresponding to fluences as expected for the positions of detector layers in the future tracker (up to $\Phi=10^{16}$ cm$^{-2}$). All materials have been characterized before and after irradiations, and throughout an annealing treatment. The measurements performed on the structures include electrical sensor characterization, measurement of the collected charge injected with beta sources and laser light and bulk defect characterization. In this talk, latest results from the campaign are presented. Summary Primary Authors: Prof. MAZUMDAR, Kajari (Tata Inst. of Fundamental Research (IN)) <kajari.mazumdar(a)cern.ch> Co-authors: Abstract presenters: Prof. MAZUMDAR, Kajari Track classification: Sensors: 1b) Semiconductor Detectors Experiments: 2a) Experiments & Upgrades Presentation type: --not specified-- Comments: Kajari Mazumdar submits this abstract on behalf of CMS collaboration, since she is coordinating this conference as a member of the CMS conference committee. Speaker's name will be specified at a later date

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[Tipp2014] [Indico] New abstract submission: Prof. MAZUMDAR, Kajari
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

The following email has been sent to Prof. MAZUMDAR, Kajari: === Dear Kajari Mazumdar, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=85&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: Prof. MAZUMDAR, Kajari Submitted on: 30 January 2014 03:51 Title: Planar silicon sensors for the CMS Tracker phase II upgrade Abstract content The CMS tracker collaboration is aiming to identify the best suited silicon materials and sensor thicknesses for future tracking detectors for the high luminosity phase of the Large Hadron Collider (HL-LHC). Therefore, a large material investigation and irradiation campaign was initiated. \\% A variety of silicon $p-in-n$ and $n-in-p$ test-sensors made from Float Zone (FZ), Magnetic Czochralski (MCz) and epitaxially grown (Epi) materials were manufactured in different sensor thicknesses by one single industrial producer (Hamamatsu Photonics K.K.). \\% The samples have been irradiated with 1 MeV neutrons, protons and subsequently with both particle types corresponding to fluences as expected for the positions of detector layers in the future tracker (up to $\Phi=10^{16}$ cm$^{-2}$). \\% All materials have been characterized before and after irradiations, and throughout an annealing treatment. The measurements performed on the structures include electrical sensor characterization, measurement of the collected charge injected with beta sources and laser light and bulk defect characterization. In this talk, latest results from the campaign are presented. Summary Primary Authors: Prof. MAZUMDAR, Kajari (Tata Inst. of Fundamental Research (IN)) <kajari.mazumdar(a)cern.ch> Co-authors: Abstract presenters: Prof. MAZUMDAR, Kajari Track classification: Sensors: 1b) Semiconductor Detectors Experiments: 2a) Experiments & Upgrades Presentation type: --not specified-- Comments: Kajari Mazumdar on behalf of conference committee of CMS collaboration at LHC submits this abstract. Speaker's name will be communicated later.

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[Tipp2014] [Indico] New abstract submission:
by noreply-indico-team＠cern.ch 30 Jan '14

30 Jan '14

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[Tipp2014] [Indico] New abstract submission: FERRER RIBAS, Esther
by noreply-indico-team＠cern.ch 29 Jan '14

29 Jan '14

The following email has been sent to FERRER RIBAS, Esther: === Dear Esther Ferrer Ribas, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=83&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: FERRER RIBAS, Esther Submitted on: 29 January 2014 22:11 Title: Novel results on small gap Micromegas microbulks Abstract content Small gap micromegas detectors ($< 50\,\rm\mu$m) are expected to be optimal for high pressure applications. These detectors are particularly relevant for rare event searches like double beta decay or dark matter search. We will present recent results obtained with small gap microbulks (25 and 12.5\,$\rm\mu$m) that have been manufactured recently. Electric field simulations taking into account the holes pattern will be also be exposed. The performance in terms of gain and energy resolution will be shown for different Argon-Isobutane mixtures and for different pressures. Energy resolutions as low as 12\% (FWHM) for the 12.5\,$\rm \mu$m while for the 25\,$\rm \mu$m values of 11.5\% have been reached at 5.9\,keV. These values are very close to the minimum energy resolution that can be achieved with gaseous detectors taking into account the fluctuations due to electron multiplication. The gain follows the expected bell shape with the maximum shifted with the pressure: smaller gaps are more suitable for higher pressures. These tests confirm the suitability of small gap microbulk for rare event detection that would require operation pressures above the atmospheric. Summary Primary Authors: Dr. FERRER RIBAS, Esther (DAPNIA, Saclay) <esther.ferrer-ribas(a)cea.fr> Co-authors: GARCIA IRASTORZA, Igor (Universidad de Zaragoza (ES)) <igor.irastorza(a)cern.ch> Mr. DAFNI, Theopisti (Universidad de Zaragoza (ES)) <theopisti.dafni(a)cern.ch> PAPAEVANGELOU, Thomas (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR)) <thomas.papaevangelou(a)cern.ch> Dr. ATTIÉ, David (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR)) <david.michel.attie(a)cern.ch> GIOMATARIS, Ioanis (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR)) <ioanis.giomataris(a)cern.ch> HERRERA MUNOZ, Diana Carolina (Universidad de Zaragoza (ES)) <diana.carolina.herrera.munoz(a)cern.ch> IGUAZ GUTIERREZ, Francisco Jose (Universidad de Zaragoza (ES)) <francisco.jose.iguaz.gutierrez(a)cern.ch> SEGUI IGLESIA, Laura (Departamento de Fisica Teorica-Facultad de Ciencias-Universidad) <laura.segui.iglesia(a)cern.ch> TOMAS ALQUEZAR, Alfredo (Universidad de Zaragoza (ES)) <alfredo.tomas.alquezar(a)cern.ch> FERRY, Serge (CERN) <serge.ferry(a)cern.ch> DE OLIVEIRA, Rui (CERN) <rui.de.oliveira(a)cern.ch> KEBBIRI, Mariam (IRFU/CEA) <mariam.kebbiri(a)cea.fr> BOILEVIN-KAYL, Ludovic (IRFU/CEA) <ludovic.boilevin(a)gmail.com> Abstract presenters: Dr. FERRER RIBAS, Esther Track classification: Sensors: 1c) Gaseous Detectors Presentation type: --not specified-- Comments:

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[Tipp2014] [Indico] New abstract submission: FILIPENKO, Mykhaylo
by noreply-indico-team＠cern.ch 29 Jan '14

29 Jan '14

The following email has been sent to FILIPENKO, Mykhaylo: === Dear Mykhaylo Filipenko, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=82&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: FILIPENKO, Mykhaylo Submitted on: 29 January 2014 17:42 Title: 3D Particle Track Reconstruction in a Single Layer CdTe-Pixel Detector Abstract content Many experiments, especially low-background experiments like the search for neutrinoless double beta decay, and applications, like Compton-imaging, would highly benefit from a room-temperature semiconductor voxel detector technology. A voxel detector is a 2D pixelated device which is able to determine the 3d coordinate (the depth of interaction) in every pixel. Thus, it can be used to reconstruct 3D-particle tracks that can be used for particle identification. We developed a method to reconstruct the depth of interaction from properties that in principle could be directly measured with an optimized semiconductor detector. We applied the method to simulation data and investigated the reconstruction results under different parameters. For an experimental proof-of-principle we used a Timepix detector with a 1 mm thick CdTe sensor and 110 µm pixel size. We evaluated data of electrons with a kinectic energy of 4.4 GeV wherefore they can be treated as minimal ionizing in our case. Despite the fact that the current Timepix cannot deliver all the necessary information for the algorithm, we successfully performed the reconstruction for electron track by employing this property (minimal ionization). The reconstruction method and recent results on the z-position resolution will be presented. Summary Primary Authors: Mr. FILIPENKO, Mykhaylo (Erlangen Center for Astroparticle Physics - ECAP) <mykhaylo.filipenko(a)physik.uni-erlangen.de> Co-authors: Mr. GLEIXNER, Thomas (ECAP) <thomas.gleixner(a)physik.uni-erlangen.de> Mr. MICHEL, Thilo (ECAP) <thilo.michel(a)physik.uni-erlangen.de> ANTON, Gisela (ECAP) <gisela.anton(a)physik.uni-erlangen.de> Abstract presenters: Mr. FILIPENKO, Mykhaylo Track classification: Sensors: 1b) Semiconductor Detectors Experiments: 2c) Detectors for neutrino physics Presentation type: --not specified-- Comments:

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[Tipp2014] [Indico] New abstract submission: WAGENPFEIL, Michael
by noreply-indico-team＠cern.ch 29 Jan '14

29 Jan '14

The following email has been sent to WAGENPFEIL, Michael: === Dear Michael Wagenpfeil, The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=81&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: WAGENPFEIL, Michael Submitted on: 29 January 2014 17:03 Title: Development of solid xenon detectors for low-background experiments Abstract content In modern astroparticle physics, noble gases are often chosen as detector material for a wide range of different experiments. Noble gases can provide a very long electron drift distance which is required for large-scale low-background experiments such as the search for dark matter or for the neutrinoless double beta decay. Due to the higher density, xenon is often used in the liquid instead of gaseous state, which allows a larger detection mass at constant volume. However, solid xenon detectors could provide additional advantages over liquid xenon setups. We present the results of recent experiments on large xenon crystals grown from the liquid phase. We successfully measured the scintillation light from ionizing radiation in the crystal and compared it to Monte Carlo simulations. Also, we studied the drift of electrons over several centimeters. The results suggest a higher drift velocity and a better collection efficiency of secondary electrons than in the case of liquid xenon. Our work is the basis of the future development of new kind of TPC using solid xenon in combination with the Timepix detector. It would benefit from the excellent electron drift characteristics of xenon. A new detector design involving both solid xenon and the Timepix detector will be presented. Summary Primary Authors: Mr. WAGENPFEIL, Michael (ECAP) <michael.wagenpfeil(a)fau.de> Co-authors: Mr. FILIPENKO, Mykhaylo (ECAP) <mykhaylo.filipenko(a)cern.ch> Dr. YOO, Jonghee (Fermi National Accelerator Laboratory) <yoo(a)fnal.gov> Dr. MICHEL, Thilo (ECAP) <thilo.michel(a)physik.uni-erlangen.de> Dr. PAHLKA, Benton (Fermi National Accelerator Labratory) <pahlka(a)fnal.gov> Prof. ANTON, Gisela (ECAP) <gisela.anton(a)physik.uni-erlangen.de> Abstract presenters: Mr. WAGENPFEIL, Michael Track classification: Sensors: 1e) Novel technologies Experiments: 2c) Detectors for neutrino physics Experiments: 2d) Dark Matter Detectors Presentation type: --not specified-- Comments:

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[Tipp2014] [Indico] New abstract submission:
by noreply-indico-team＠cern.ch 29 Jan '14

29 Jan '14

The following email has been sent to : === Dear , The submission of your abstract has been successfully processed. Abstract submitted: <https://indico.cern.ch/userAbstracts.py?confId=192695>. Status of your abstract: <https://indico.cern.ch/abstractDisplay.py?abstractId=80&confId=192695>. See below a detailed summary of your submitted abstract: Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics Submitted by: Submitted on: 29 January 2014 17:00 Title: Development of a ne¬¬w ultra-fast shower maximum detector based on micro channel plates (MCP) as an active element. Abstract content Future calorimeters and shower maximum detectors at high luminosity accelerators need to be very radiation resistant and very fast. In this report we outline the study of the development of such detectors using microchannel plate (MCP) secondary emitters. The first proposal to use secondary emitters in such a detector can be found in Ref. [1]. Our research is based on the use of MCP secondary emitters as active elements that directly amplify the electromagnetic component in showers. A key point is that the method does not require a complete MCP/phototube with photocathode deposited on a vacuum glass container, but can use the bare MCP’s in an inexpensive and robust housing. As the photocathode fabrication is the dominant driver of the cost of current MCP-PMTs, the use of bare plates without a photocathode results in much cheaper and more robust assembly. One of the main limitations in using this technique has been the high cost of MCPs. Due to recent progress in developing MCP’s consisting of large-area glass-capillary substrates functionalized by Atomic Layer Deposition [2, 3], this approach is becoming feasible. Test beam measurements of a prototype were performed with 120 GeV primary protons and secondary beams at the Fermilab Test Beam Facility. We present proton and positron beam tests results, obtained with different type of MCP-PMT’s. Beam particles pass through a lead absorber of varying thickness, creating a shower that is detected by the MCP-PMT’s. We report here on the timing characteristics obtained in the beam tests, the dependence of the pulse amplitude on the absorber thickness, and the contribution of the Cherenkov component from the shower interacting with varying thicknesses of quartz placed in front of the MCP-PMT. We have measured a shower maximum time resolution of ~25 psec, using the DRS4 5 GS/s digitizer. [4] *corresponding author References 1. A. Derevshchikov, V. Yu. Khodyrev, V.I. Kryshkin, V.E. Rakhmatov, A. I. Ronzhin, “On possibility to make a new type of calorimeter: radiation resistant and fast”. Preprint IFVE 90-99, Protvino, Russia, 1990. 2. O. H. W. Siegmund, J. B. McPhate, J. V. Vallegra, A. S. Tremsin, H. Frisch, J. Elam, A. Mane, R. Wagner, “Large Area Event Counting Detectors with High Spetial and Temporal Resolution” to be submitted to JINST; Dec, 2013. 3. Incom. Inc; Charlton MA, USA 4. Stefan Ritt, “Development of high speed waveform sampling ASICs”, in proceedings NSNI 2010 Summary Primary Authors: Dr. RONZHIN, Anatoly (Fermi National Accelerator Laboratory) <ronzhin(a)fnal.gov> Co-authors: Dr. LOS, Sergey (Fermi National Accelerator Laboratory) <los(a)fnal.gov> Dr. RAMBERG, Erik (Fermi National Accelerator Laboratory) <ramberg(a)fnal.gov> KIM, Heejong (University of Chicago) <heejongkim(a)uchicago.edu> Prof. SPIROPULU, Maria (Caltech) <smaria(a)caltech.edu> Dr. APRESYAN, Artur (Caltech) <artur.apresyan(a)cern.ch> Dr. XIE, Si (Caltech) <sixie(a)hep.caltech.edu> Dr. ZATSERKLYANIY, Andriy (UC Santa Cruz, CA) <zatserkl(a)gmail.com> Abstract presenters: Dr. RONZHIN, Anatoly Track classification: Sensors: 1e) Novel technologies Presentation type: --not specified-- Comments:

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tipp2014 January 2014