27th RD50 Workshop (CERN)

Europe/Zurich
6/2-024 - BE Auditorium Meyrin (CERN)

6/2-024 - BE Auditorium Meyrin

CERN

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Michael Moll (CERN)
Description
27th RD50 Workshop on Radiation hard semiconductor devices for very high luminosity colliders
Participants
  • Agnieszka Oblakowska-Mucha
  • Alberto Messineo
  • Alessandro La Rosa
  • Alexander Zaluzhnyi
  • Andreas Gisen
  • Angel Merlos Domingo
  • Anna Macchiolo
  • Anselmo Margotti
  • Ashutosh Bhardwaj
  • Asmund Schiager Folkestad
  • Audrey Ducourthial
  • Blerina Gkotse
  • Celso Figueiredo
  • Christian Gallrapp
  • Christian Scharf
  • Clara Nellist
  • Donato Creanza
  • Eckhart Fretwurst
  • Elena Donegani
  • Elena Verbitskaya
  • Ernestas Zasinas
  • Esteban Curras Rivera
  • Eugene Grigoriev
  • Eugenijus Gaubas
  • Evangelos-Leonidas Gkougkousis
  • Fco. Rogelio Palomo Pinto
  • Federico Ravotti
  • Francesca Carnesecchi
  • Francesca Cenna
  • Frank Hartmann
  • Geetika Jain
  • Georgi Gorine
  • Gianluigi Casse
  • Gregor Kramberger
  • Hartmut Sadrozinski
  • Igor Mandic
  • Isidro Mateu Suau
  • Ivan Lopez Paz
  • Ivan Vila Alvarez
  • Joaquin GONZALEZ JIMENEZ
  • Joern Lange
  • Joern Schwandt
  • Juozas Vaitkus
  • Lenny Spiegel
  • Lucian Nicolae Cojocariu
  • Mahmoud Joz Tavassoli
  • Mantas Vaitkus
  • Marcin Bartosik
  • Marco Bomben
  • Marco Ferrero
  • Marcos Fernandez Garcia
  • Maria Margherita Obertino
  • Marko Mikuz
  • Matteo Marone
  • Matthew Jordan Kelsey
  • Maurice Glaser
  • Michael Kwestarz
  • Michael Moll
  • Michael Solar
  • Moritz Wiehe
  • Natascha Savic
  • Nicolo Cartiglia
  • Pawel Kaminski
  • Pellegrini Giulio
  • Philip Patrick Allport
  • Ralf Mario Roder
  • Ranjeet Ranjeet
  • Riccardo Mori
  • Rosario Nania
  • Salvador Hidalgo Villena
  • Sebastian White
  • Shyam Kumar
  • Sofia Otero Ugobono
  • Stephan Wiederkehr
  • Susanne Kuehn
  • Sven Wonsak
  • Tatyana Arsenovich
  • Tilman Rohe
  • Timo Hannu Tapani Peltola
  • Tobias Wittig
  • Tomas Ceponis
  • Tomasz Szumlak
  • Ulla Tihinen
  • Ulrich Parzefall
  • Valentina Sola
  • Veronique Wedlake
  • Vlad-Mihai Placinta
  • Vladimir Eremin
    • Registration 6/2-024 - BE Auditorium Meyrin

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    • Future Detectors & New Irrad Facilities 6/2-024 - BE Auditorium Meyrin

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      Convener: Michael Moll (CERN)
      • 1
      • 2
        Challenges for Particle Detectors at Future Circular Colliders
        The Future Circular Collider (FCC) is an integral conceptual design study for post - LHC particle accelerator options in a global context. It is exploring the potential of hadron and lepton circular colliders, performing an in - depth analysis of infrastructure and operation concepts and considering the technology research and development programs that would be required to build a future circular collider . A conceptual design report will be delivered before the end of 2018 , in time for the next update of the European Strategy for Particle Physics . This talk will give an overview of the FCC studies and present specific aspects of experiments and detectors at the 100 TeV hadron collider that is a key part of this study.
        Speaker: Werner Riegler (CERN)
      • 3
        The new CERN proton irradiation facility
        Speaker: Maurice Glaser (CERN)
      • 10:30
        Coffee break
      • 4
        Van-de-Graaff Accelerator at IEAP CTU in Prague [not Friday]
        In the laboratory building of the Faculty of Mathematics and Physics, Charles University (FMP CU) in Prague Troja an electrostatic ion accelerator, Van de Graaff HV2500 (product of the HVE Europe) with maximum energy 2.5 MeV protons is currently in operation. Accelerator was commisioned in 80th of 20th century, and now is upgraded and operated by IEAP CTU staff. It is planned to maintain it in the mode "open access" minimally to 2022.
        Speaker: Michael Solar (Czech Technical University (CZ))
    • Defect Characterization 6/2-024 - BE Auditorium Meyrin

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      • 5
        Development of the space oriented vacancy – interstitial cluster model
        We report about the progress of study of the model of vacancy-interstitial defect cluster presented earlier at 26th Cern RD50 workshop. According to this model the defect cluster is realized as a confined inclusion of disordered vacancy and interstitial defects where the subregion of interstitials is shifed from the subregion of vacancies along the trajectory of incident high energy particle. Such a structure gives rise to the two regions of acceptor and donor states separated in space. As a consequence of free carriers localization in these states the defect cluster turns into a dipol like space charged object which affects the transport and recombination of the rest of the free carriers.
        Speaker: Ernestas Zasinas (Vilnius University)
      • 6
        TSC measurements on 200 μm pad diodes, irradiated with 23 MeV protons [Wednesday]
        Future HEP experiments will have to face neutron equivalent fluences up to 2$\cdot$10$^{16}$ neq/cm$^{2}$ and an ionizing dose in the order of a few MGy. Thin n+p Si sensors are potential candidates for coping with such radiation environment, but more experimental data are essential in order to: firstly, get a deeper understanding of the properties of hadron induced defects, and secondly develop a radiation damage model based on microscopic measurements such as the Thermally Stimulated Current (TSC) measurements. In view of this and as a first step, TSC measurements were performend on 200 μm thick Float-Zone (FZ) p- and n-type pad diodes, irradiated with 23 MeV protons. The samples were irradiated in the fluence range (0.3-1)$\cdot$10$^{14}$ neq/cm$^{2}$ , so that the maximal temperature at which the TSC signal is still sharply distinguishable from the background is 200 K. During the talk special focus will be given on the newly developed analysis tool for TSC spectra, in order to e.g. calculate defect introduction rates and investigate their annealing behaviour.
        Speaker: Elena Donegani (University of Hamburg)
      • 7
        Remarks on the thermally stimulated current measurement
        The measurement of thermally stimulated current was performed in the irradiated silicon pad detectors excited by light and by forward current. The TSC measurement was performed in the reverse bias regime. The differences in the spectrum are explained by a contribution of the non-equilibrium holes on the modulation of the microinhomogeneities related to the clusters and recombination in the case of light excitation.
        Speaker: Juozas Vaitkus (Vilnius University)
      • 8
        Effect of proton fluence on radiation defect structure of high-purity silicon for particle detectors
        High-resolution photoinduced transient spectroscopy (HRPITS), infrared absorption (FTIR) and photoluminescence (PL) measurements have been applied to determining the properties and concentrations of radiation defect centers formed in high-purity FZ silicon due to the irradiation with 23-MeV protons. The selected four proton fluences were equivalent to 1E14, 5E14, 1E15, and 5E15 cm^-2 of 1-MeV neutrons. Before the proton irradiation, the material resistivity had been of ~ 2000 Ωcm. The irradiation with each fluence resulted in obtaining the material with semi-insulating properties, indicated by the resistivity above 2×10^5 Ωcm. The HRPITS results revealed that the increase in the resistivity is due to the formation of shallow, deep, and midgap radiation defect centers that are likely to be responsible for the charge compensation in the irradiated material. The FTIR results revealed the presence of both VO and V2O centers, as well as of the divacancies in V2 (0) and V2 (-) charge states. In the low-temperature PL spectra, a number of lines attributed to the excitons bound to the defect centers were observed. The C, G, and T lines are related to the complexes involving carbon atoms and the W line is probably related to Si interstitials. The dependences of the radiation defect centers concentrations as a function of the proton fluence were determined.
        Speaker: Prof. Pawel Kaminski (Institute of Electronic Materials Technology, 133 Wolczynska St., 01-919 Warszawa, Poland)
      • 9
        Carrier lifetime variations in pion irradiated and annealed Si
        Results on research of fluence dependent carrier lifetime variations in pion irradiated and annealed Si will be reported. Profiles of carrier lifetime lateral variation in the as–irradiated p- and n-Si wafer fragments are to be illustrated. The obtained carrier lifetime variations are discussed.
        Speaker: Eugenijus Gaubas (Vilnius university)
      • 10
    • 13:20
      Lunch Break 6/2-024 - BE Auditorium Meyrin

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    • CMOS sensors and Sensor Producers 6/2-024 - BE Auditorium Meyrin

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      • 11
        Radiation hardness studies of neutron and proton irradiated CMOS sensors fabricated in the ams H18 high voltage process
        High voltage CMOS detectors (HVCMOSv3), fabricated in the ams H18 high voltage process, with a substrate resistivity of 10$\Omega\cdot\mathrm{cm}$ were irradiated with 24 GeV/c protons up to a fluence of 7$\times$10$^{15}$ n$_{eq}$/cm$^2$ and thermal neutrons up to a fluence of 2$\times$10$^{16}$ n$_{eq}$/cm$^2$. The detectors were characterized using edge-TCT. Both, the collected charge and the depletion depth increased after irradiation, showing a benefitial effect of irradiation on low resistivity silicon.
        Speaker: Marcos Fernandez Garcia (Universidad de Cantabria (ES))
      • 12
        Status of E-TCT measurements with HV-CMOS test structures
        TCT measurements with focused laser beam were recently made with test structures from different producers of HV-CMOS detectors. The test structures are processed on substrate with different resistivities. In this contribution we will compare TCT measurements with these structures before and after irradiation.
        Speaker: Igor Mandic (Jozef Stefan Institute (SI))
      • 13
        Simulations of HV-CMOS
        Where we present some TCAD simulatinos on HV-CMOS 350 nm AMS, in order to assist the comparison with measurements.
        Speaker: Francisco Rogelio Palomo Pinto (Universidad de Cantabria (ES))
      • 15:20
        Coffee break
      • 14
        TCAD simulations of LGAD devices [Wednesday!]
        I will present preliminary results from simulated LGAD devices, before and after irradiation. Electrical properties and response to MIPs and alpha particles will be discussed, as a function of irradiation fluences, polarization voltage and device temperature.
        Speaker: Marco Bomben (Centre National de la Recherche Scientifique (FR))
      • 15
        Discussion (HVCMOS & Sensor Producers)
        Speaker: Gianluigi Casse (University of Liverpool (GB))
    • Collaboration Board (Restricted) 6/2-024 - BE Auditorium Meyrin

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      Conveners: Gregor Kramberger (Jozef Stefan Institute (SI)), Juozas Vaitkus (Vilnius University (LT))
    • Reception 6/2-024 - BE Auditorium Meyrin

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    • Sensors with intrinsic gain 6/2-024 - BE Auditorium Meyrin

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      • 16
        IV-characterization of silicon sensors irradiated up to 2E16neq/cm^2
        Miniature silicon strip detectors (~1x1cm) with different thicknesses (50, 100, 150 and 300 μm) from Hamamatsu K.K. and Micron Semiconductor Ltd. were irradiated at Birmingham and Ljubljana with doses up to 2E16 neq/cm^2. IV measurements were performed at different temperatures for the determination of the effective energy Eeff and the current related damage rate α directly after irradiation and after room temperature annealing (10 days and 30 days). The results of these measurements performed at Liverpool will be presented in this talk. A second set of sensors of the same type and irradiation campaign have been measured in Freiburg with a different set-up. These results will be shown by Moritz Wiehe at this workshop.
        Speaker: Sven Wonsak (University of Liverpool (GB))
      • 17
        The effective bandgap and current related damage rate of highly irradiated silicon sensors
        The reverse current of irradiated silicon sensors has a strong influence on the signal-to-noise-ratio of a detector and leads to significant heat dissipation within the detector. Thus knowledge of the expected reverse current is crucial for detector design and operation. The dependence of the reverse current on temperature and irradiation fluence is parameterized by the effective bandgap Eeff and the current related damage rate α. These two quantities were obtained by measurements of the reverse current at temperatures of -32°C, -27°C and -23°C in a cold setup using a freezer and peltier. For this study planar n-in-p silicon strip detectors manufactured by Hamamatsu Photonics and Micron Technology irradiated with fluences ranging from 2x1014 to 2x1016 neq/cm2 were used.
        Speaker: Moritz Wiehe (Albert-Luwdigs-University Freiburg)
      • 18
        Drift Mobility and Electric Field in Silicon Detectors Irradiated with Neutrons and Protons up to 1E17 n_eq/cm^2 [Thu/Friday]
        Electric field in silicon irradiated with neutrons up to 1e17 n_eq/cm^2 and PS protons up to 3e16 p/cm^2 was investigated by edge-TCT. Methods for absolute determination of electric field were developed and electric field profiles in the silicon bulk obtained. From the v(E) dependence mobility degradation with fluence was extracted. A 1/sqrt(Phi) dependence of mobility on fluence was obseved for both irradiations with protons provoking ~20 % more degradation at equal NIEL. The observed mobility degradation and the values of electric field indicate substantial reduction of trapping from linear extrapolation of low fluence values.
        Speaker: Marko Mikuz (Jozef Stefan Institute (SI))
      • 19
        Analysis of TCT measurements of highly irradiated silicon pad diodes under forward bias
        For highly irradiated silicon sensors the electric field under reverse bias takes the shape of a double junction with high field strength near the implants and a region of low field strength in between. For this condition it is not trivial to disentangle the electric field, (de-)trapping of charge carriers, and the drift velocity all of which are a function of the irradiation and the position in the sensor. However, to a good approximation the electric field is independent of position for forward bias and it can be assumed that also the trapping rates are independent of position. We started to analyze transient current technique (TCT) measurements of forward biased HPK campaign silicon pad diodes irradiated with doses above $10^{15}$ GeV protons/cm² to obtain information on the trapping and detrapping rates as a function of the electric field and the dose. The analysis and first results will be presented.
        Speaker: Christian Scharf (Hamburg University (DE))
      • 20
        Tests of the Signal from Minimum Ionising Particles of 50µm Thick Silicon Micro-Strip Sensors after Extreme Fluences above 3E16 Neq cm^2
        The development of silicon detectors tolerant to extreme fluences for future high energy and high luminosity hadron colliders (like the upgrade of the present Large Hadron Collider to high luminosity at CERN) is demanded not only for instrumenting the innermost layers (where pixel sensors will be deployed) but also for particle flow calorimetry. The anticipated fluence levels range from 2E16 neq/cm^2 in the inner pixel layers to possibly 1E17 neq/cm^2 in the forward calorimeter region. The challenge is daunting, because of the large increase of the reverse current and the severe decrease of the signal recorder by the irradiated devices. The use of thin silicon detectors in charge multiplication regime could take the tolerance of silicon detectors further towards satisfying this requirement. We show here the experimental result obtained with silicon micro-strip sensors with a thickness of 50 µm irradiated with neutrons to various fluences up to 3E16 neq/cm^2. After irradiation the signal is studied with fast electrons from a radioactive source, to mimic the signal of minimum ionising particles. The sensors are readout with LHC speed electronics (the ALIBAVA system, 40MHz clock speed).
        Speaker: Gianluigi Casse (University of Liverpool (GB))
      • 21
        Discussion Session on High Fluence Effects/Radiation
        Speaker: Eckhart Fretwurst (II. Institut fuer Experimentalphysik)
      • 11:00
        Coffee break
      • 22
        Status of CNM developments on LGAD and iLGAD detectors
        We will present the last technological developments at CNM on LGAD and iLGAD detectors. The last electrical performances for pad and strip LGADs will also be presented, showing that the fabricated LGAD detectors have a voltage capability higher than 1000 V with leakage currents in the 20 nA/cm2 range, and a linear gain in the typical operating reverse voltage values (200 to 800 V) in the range of 5-10. However, red laser scanning measurements revealed a non-uniform multiplication across the strip LGAD, basically due to technological constrains.
        Speaker: Dr Salvador Hidalgo (Centro Nacional de Microelectronica (IMB-CNM-CSIC))
      • 23
        Characterization of LGAD sensors from CNM Run 7062
        Speaker: Isidro Mateu Suau (Centro de Investigaciones Energ. Medioambientales y Tecn. - (ES)
      • 24
        Characterization of LGAD sensors from CNM Run 7859
        Results from the study of LGADs from CNM Run 7859 will be presented. TCT+, CV/IV and Sr90 source measurements were performed before irradiation. Some of these sensors have been subjected to proton irradiation at CERN. The fluences to which these were exposed are 1E12, 1E13, 1E14 and 1E15 neq/cm^2. CV/IV curves of the irradiated samples were obtained and will be presented together with an outline of future studies to be conducted: TCT+, timing and Sr90 source measurements after irradiation; tests on strip LGADs.
        Speaker: Sofia Otero Ugobono (Universidade de Santiago de Compostela (ES))
      • 25
        Negative feedback in Si detectors with avalanche multiplication
        The negative feedback in silicon heavily irradiated detectors is a basic mechanism which governs the detector performance [V. Eremin, et al., NIM A 658 (2011) 145]. The talk presents a comparative study of the mechanism in P+-I-N+ and Low Gain Avalanche Diodes (LGAD) utilizing the classic structure of avalanche photodiodes performed in the fluence range up to 1x10^15 neq/cm2. The analytical evaluations are applied to express the major trends of the voltage and fluence dependences of the detector parameters.
        Speaker: Dr Vladimir Eremin (Ioffe Institute, St. Petersburg)
      • 26
        Timing resolution of 300-micron thick LGAD sensors from CNM at testbeam and comparison with simulation.
        In this contribution I will report on the the timing resolutions of 300-micron thick LGAD sensors from CNM obtained at testbeams and compare the results with prediction from simulations. I will also illustrate the timing capabilities of future thin LGAD production and report on potential use of LGADs at LHC.
        Speaker: Nicolo Cartiglia (Universita e INFN Torino (IT))
      • 27
        Reading out thin LGADs
        For the use as Ultra-Fast Silicon Detectors, we are planning to use thin (50um) LGAD. We will report on our measurements and simulations on thin epi sensors and the issues a fast readout will bring
        Speaker: Hartmut Sadrozinski (University of California,Santa Cruz (US))
    • 13:20
      Lunch Break 6/2-024 - BE Auditorium Meyrin

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    • Simulations 6/2-024 - BE Auditorium Meyrin

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      • 28
        Status of LGAD RD50 projects
        I will do a short summary on the status of the RD50 funding projects related to LGAD detectors.
        Speaker: Giulio Pellegrini (Centro Nacional de Microelectrónica (IMB-CNM-CSIC) (ES))
      • 29
        Discussion on LGAD
        Speaker: Giulio Pellegrini (Universidad de Valencia (ES))
      • 30
        KDetSim - a ROOT based detector simulation package
        A full 3D package for charge collection simulations in semiconductor detectors has been developed within the ROOT framework. It solves Poisson and Laplace equations for a given space charge in different materials. The simulation of induced current takes into account all relevant physics processes such as drift, diffusion and impact ionization and trapping.The basics/fundamentals of the package will be described and several examples shown.
        Speaker: Gregor Kramberger (Jozef Stefan Institute (SI))
      • 31
        Comparisson of different non-commercial detector simulation packages
        Simulation tools designed for charge collection studies were developed by different groups within rd50. These tools solve Poisson equation for a given space charge (rather than calculating it from microscopic defects). Unlike commercial packages they allow for fast simulation of drift and diffusion of generated charges allowing Monte Carlo approach on studies of detector performance. They are also ideal for simulations of TCT measurements. In order to assure reliable comparison of simulations with measurements different simulations packages were cross-calibrated by comparison of induced currents in simple well known structures. A reasonable agreement has been found with small differences usually arising from different mobility parameterizations.
        Speaker: Gregor Kramberger (Jozef Stefan Institute (SI))
      • 15:50
        Coffee break
      • 32
        Towards to a new radiation damage model for Synopsys TCAD
        For the high luminosity phase of the Large Hadron Collider (HL-LHC) at the expected position of the innermost pixel detector layer of the CMS experiment the estimated equivalent fluence after 3000 fb$^{-1}$ is 2$\cdot$10$^{16}$ neq/cm$^2$, and the IEL (Ionizing Energy Loss) dose in the SiO$_2$ is 5 MGy. The optimization of the pixel sensors and the understanding of their performance as a function of flucence and dose requires implementing a realistic radiation damage model in TCAD simulation. So far the simulations cannot explain simultaneously dark current, electrical field and charge collection efficiency. In addition, they have not been validated for such high fluences. Therefore, to judge the validity of the currently available models used in the particle physics community, a comparison of the simulation results with I-V, C-V and CCE measurements of irradiated diodes will be presented and some new ideas toward a radiation damage model which accurately describes available data will be discussed.
        Speaker: Joern Schwandt (Hamburg University (DE))
      • 33
        Simulation of LGAD characteristics taking into account negative feedback in detectors with carrier multiplication
        The LGAD characteristics are calculated basing on the model of carrier impact ionization in the p+ built-in layer. It is shown that characteristics of the diodes are controlled by negative feedback via trapping of holes arisen due to impact ionization, which reduces the electric field and the signal gain. The dependences of collected charge vs. bias voltage and fluence are obtained and their correlation with experimental data is shown.
        Speaker: Dr Elena Verbitskaya (Ioffe Institute, St. Petersburg)
      • 34
        TCAD simulation of Low Gain Avalanche Detectors
        Recently proposed Low Gain Avalanche Detector (LGAD) designs has been subject of increasing interest within Si sensor community. The LGAD devices fabricated by CNM Barcelona have shown promising characteristics before irradiation. But, after hadron irradiation, a significant degradation of gain has been observed in these devices. These results have not been explained by earlier simulations and are attributed to the possible acceptor removal with irradiation. In University of Delhi, detailed simulation using Silvaco TCAD tool for non-irradiated and irradiated LGAD devices have been carried out. An already published effective two trap bulk damage model is used to simulate the radiation damage. The effect of different design parameters and hadron irradiation on LGAD operations will be discussed.
        Speaker: Ranjeet Dalal (University of Delhi)
      • 35
        TCAD 2D SIMULATIONS FOR PHASE II PIXEL SENSOR DESIGN
        The pixel sensors of the CMS silicon tracker are required to be upgraded to sustain the harsh radiation environment that will be generated during the High Luminosity Large Hadron Collider (HL-LHC) era. To overcome the problem of radiation damage in Si sensors, an R&D effort is being carried out by the Si sensor Device Simulation Group on different designs of pixel sensors through TCAD simulations. The Si pixel are n-on-p types having two different values of strip-pitch, i.e. 50 um and 25 um. In these two configurations, geometries with different isolation techniques (pspray & pstop) and design parameters like the detector thickness, the pspray/pstop peak doping concentration and the depth of the doping, metal overhang, etc have been studied. Various critical parameters like the critical electrical field regions, breakdown voltage, and the charge collection efficiency have been compared as a function of fluence for all these geometries.
        Speaker: Geetika Jain (University of Delhi (IN))
      • 36
        Effect of Al2O3 passivation layer in irradiated n-on-p strip sensors [Thursday]
        The significant advantages of detectors manufactured on p-type silicon material over n-type detectors in the HEP particle tracking applications have been well documented in the R&D community. In AC-coupled p-type position-sensitive strip detectors, however, the fixed oxide charge in the silicon dioxide is positive and, thus, causes electron accumulation at the Si/SiO2 interface. Thus, the n-type strips become short-circuited without additional isolation implantations. The higher processing complexity resulting from this requirement can be avoided by the use of aluminum oxide (Al2O3, alumina) thin-film insulator, grown by Atomic Layer Deposition (ALD) method. The negative oxide charge in ALD-oxide provides strip isolation without any additional isolation structures. Measurement and TCAD simulation study of a MOS test structure with alumina layer show a considerable accumulation of negative oxide charge in ALD-oxide after Co-60 gamma-ray irradiations. Also a comparative study of the simulated surface properties between alumina, p-stop and p-spray sensors will be presented. Furthermore, measurements of 2e15 neq/cm2 proton irradiated p-type MCz-Si strip sensors with alumina thin-film insulator are compared to the simulations of corresponding sensor design as well as with conventional isolation structures.
        Speaker: Timo Hannu Tapani Peltola (Helsinki Institute of Physics (FI))
      • 37
        Discussion Session on TCAD Simulations
        Speakers: Gregor Kramberger (Jozef Stefan Institute (SI)), Vladimir Eremin (Ioffe Physical Technical Institute of Russian Academy of Scienc)
    • Dinner 6/2-024 - BE Auditorium Meyrin

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    • 3D and Pixel detectors 6/2-024 - BE Auditorium Meyrin

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      • 38
        Status of 3D detector activities at CNM
        I will present the last fabrication run ongoing at CNM-IMB on 3D detectors activities for the LHC upgrade and the status of the RD50 project related to 3D.
        Speaker: Giulio Pellegrini (Centro Nacional de Microelectrónica (IMB-CNM-CSIC) (ES))
      • 39
        Radiation hardness of 3D pixel detectors up to 2e16 neq/cm2
        A new generation of radiation-hard 3D detectors optimised for the HL-LHC with small pitches of 25 and 50 um (implying inter-electrode spacings of only about 35 µm) is under development. Until these new productions are available, radiation hardness studies of existing pixel devices from the IBL/AFP generation with about 70 µm inter-electrode spacing are on-going. This presentation will give an overview and focus on recent results obtained with FEI3 pixel detectors irradiated with neutrons in Ljbuljana up to fluences of 2e16 neq/cm2, including IV, power dissipation and charge collection measurements.
        Speaker: Joern Lange (IFAE Barcelona)
      • 40
        Beam test of 3D pixel detectors up to fluences of 9e15 neq/cm2
        3D FEI4 pixel detectors from the IBL production were non-uniformly irradiated at CERN-PS with 23 GeV protons up to a maximum fluence of 9e15 neq/cm2. The devices have been studied in beam tests at CERN SPS and good efficiencies of >97% have been achieved at the highest fluence already at 170 V. Especially interesting is the option to study a vast range of fluences on a single pixel device due to the non-uniform beam profile. This presentation will give an overview on the achieved results.
        Speaker: Ivan Lopez Paz (Universitat Autònoma de Barcelona (ES))
      • 41
        High resistivity, nitrogen-enriched FZ Si wafers for particle detectors
        We present the properties of the first high-resistivity, nitrogen enriched FZ Si wafers produced within the framework of the NitroSil project. The n-type wafers of 100 mm in diameter were prepared from the high-purity FZ Si crystals grown in <100> direction. The nitrogen doping was performed during the crystals growth and the doping with phosphorus was made by the neutron transmutation process (NTD) that is a unique technique enabling a strictly controlled and uniform distribution of phosphorus in Si single crystals to be achieved. In order to remove the radiation damage and to obtain the target resistivity, after the NTD processes the crystals were subjected to a heat treatment. The nitrogen rich wafers are characterized by: ρ ≈ 2000 Ωcm, [N] ≈ 1.5E15 cm^-3, [O] < 1E16 cm^-3, and [C] < 5E15 cm^-3. The radial resistivity distributions of N-free and N-rich wafers are compared. The availability of the N-rich wafers on the market of semiconductor materials for particle detectors is discussed.
        Speaker: Mr Michal Kwestarz (Topsil Semiconductor Materials SA, 133 Wolczynska St., 01-919 Warszawa, Poland)
      • 42
        Ongoing activities at CiS
        The CiS research institute is engaged in developments of radiation detector technologies on several different fields. Current projects are dealing e.g. with large area thinned sensors, active edge sensors, sensor-chip packaging technologies and defect engineering. For large area sensors, the need for smaller thicknesses can be approached by etching cavities to the sensors back side while guaranteeing stability on wafer level by thick frames at the edges. A first n-in-p pixel run with membranes up to 4x4cm² is finished and shows promising results. An active edge sensor run is currently ongoing. The status of the production, especially results of the challenging ICP trench etching step will be shown.
        Speaker: Tobias Wittig (CIS Institut fuer Mikrosensorik GmbH (DE))
      • 10:40
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      • 43
        Thin n-in-p planar pixel sensor productions at MPP
        New productions of thin n-in-p pixel sensors designed at MPP will be presented. Sensors in the thickness range between 50 and 150 um have been produced at ADVACAM on SOI wafers with slim or active edges. Evaluation assemblies have been measured by means of radioactive source scans and beam tests. The performance after irradiation in terms of hit efficiency of different pixel cell designs will be discussed. The main focus is the optimization of the punch-through and bias rails to limit the loss of efficiency caused by these structures at high levels of irradiation. The results have been used in the design of the sensors for the new RD53 read-out chips implemented in the coming productions at MPG-HLL and CIS. Measurements of charge collection at different depths in the pixel sensor bulk have been obtained with the grazing angle technique for n-in-p pixel sensors. This analysis also allows for the determination of hit efficiency with small pixel pitches in the high pseudo-rapidity range of the new pixel systems at HL-LHC.
        Speaker: Natascha Savic (Max-Planck-Institut fuer Physik (Werner-Heisenberg-Institut) (D)
      • 44
        Characterization of sensors from US vendor Tezzaron/Novati
        The US CMS Outer Tracker group received a first set of wafers from Tezzaron/Novati, which had been fabricated as part of an innovation grant from the US Department of Energy. A preliminary characterization has been carried out by three US institutes and aside from an anomaly with the guard ring structure the results are promising. The wafers contain a number of test structures, some of which are relevant for the Phase II Outer Tracker replacement and some for the High Granularity Calorimeter. Results from measurements of diode and strip structures are presented.
        Speaker: Lenny Spiegel (Fermi National Accelerator Lab. (US))
      • 45
        PSI-ROC4SENS: a pixel-ROC for sensor studies [Thu/Fr 10:00-12:00]
        The PSI chip design team has submitted the ROC4SENS, an analogue pixel chip in $0.25\,\mu$m technology which is dedicated for sensor studies. It has a size of $7.8\times 9.8\,$mm$^2$ covered by $155\times 160$ pixels with a pitch of $50\times 50\,\mu$m$^2$. The pixel cell does not contain a discriminator and therefore does not apply a threshold on the signal. However this means the data will not be zero suppressed and a sequential read out of all (connected) pixels is necessary. The ROC was submitted parasitically to the P-ROC 600 for the inner pixel layer of the CMS phase1 upgrade. A small number of samples for a test of its functionality will be available in January 2016. The talk will describe the design of the ROC4SENS and its mode of operation.
        Speaker: Stephan Wiederkehr (Paul Scherrer Institut (CH))
      • 46
        Power Dissipation Studies on n-in-n Pixel Sensors
        The innermost tracking detector of the ATLAS experiment consists of planar n-in-n pixel sensors. Also the newly installed insertable b-layer (IBL) consists of pixel sensors but with a revised design layout and an improved front-end electronics. The envisaged radiation dose in the run II data taking period of the innermost sensors will be a few $10^{15} \text{n}_{\text{eq}}\text{cm}^{-2}$. Irradiation doses well above $10^{16} \text{n}_{\text{eq}}\text{cm}^{-2}$ are considered for innermost pixel detector layers in future collider and detector upgrades like the high luminosity LHC (HL-LHC). This contribution presents the results of a systematic study of power dissipation, which has been performed on several n-in-n single chip sensors, irradiated to fluences up to $2 \times 10^{16} \text{n}_{\text{eq}}\text{cm}^{-2}$ as well as on all main structures of a non-irradiated IBL prototype wafer. Measurement parameters include variations of sensor bias voltages, operation temperatures, bulk thicknesses and irradiation fluences.
        Speaker: Andreas Gisen (Technische Universitaet Dortmund (DE))
      • 47
        LGAD and irradiated doping profiles
        In the context of the latest CNM LGAD production run, SiMS measurements and simulations are presented for the and nntypr implants. An additional study on irradiated p-implanted doping profiles is performed with fuences of 10^15neq/cm^2
        Speaker: Vagelis Gkougkousis (Laboratoire de l'Accelerateur Lineaire (FR))
      • 48
        Discussion: 3D and Planar Detectors
        Speakers: Gianluigi Casse (University of Liverpool (GB)), Giulio Pellegrini (Universidad de Valencia (ES))