Last edited by Arashijora
Wednesday, May 20, 2020 | History

7 edition of Evolution of Silicon Sensor Technology in Particle Physics found in the catalog.

Evolution of Silicon Sensor Technology in Particle Physics

Frank Hartmann

Evolution of Silicon Sensor Technology in Particle Physics

by Frank Hartmann

  • 229 Want to read
  • 26 Currently reading

Published by Springer .
Written in English

    Subjects:
  • Particle & high-energy physics,
  • Science/Mathematics,
  • Science,
  • Nuclear Physics,
  • Physics,
  • Collider,
  • Detector,
  • High Energy Physics,
  • Linear Collider,
  • Quality Control,
  • Science / Nuclear Physics,
  • Silicon Detector,
  • Tracking Detector,
  • b-tagging

  • Edition Notes

    Springer Tracts in Modern Physics

    The Physical Object
    FormatHardcover
    Number of Pages150
    ID Numbers
    Open LibraryOL9055385M
    ISBN 103540250948
    ISBN 109783540250944

    4. Evaluation of Silicon sensor technology in particle physics: Frank Hartmann (Springer). 5. The Experimental Foundations of Particle Physics: R. N. Cahn, G. Goldhaber (Cambridge University Press). 6. Experimental Techniques in High Energy Nuclear and Particle physics: T. Ferbel (World Scientific). Size: KB. Comparison of Silicon, Germanium, Gallium Nitride, and Diamond for using as a detector material in experimental high energy physics. Frank HartmannEvolution of silicon sensor technology in particle physics. Springer-Verlag, Berlin Heidelberg () Google Scholar.

    Evolution of Silicon Sensor Technology in Particle Physics (Springer Tracts in Modern Physics) SPRINGER FUNDAMENTAL PHYISCS IN PARTICLE TRAPS RETAIL EBOOK-kE; Cosmology (Springer Tracts in Modern Physics) - Dierck-Ekkehard Liebscher. Evolution of Silicon Sensor Technology in Particle Physics. Book. the technological evolution of silicon detectors and their impact on high energy particle physics. overview of the silicon.

    is the evolution of silicon detectors, from a system with a few channels 30 years ago, to the tens of millions of independent pixels currently used to track charged particles in all major particle physics experiments. Nowadays, silicon detectors are ubiquitous not only in research. The discovery of the Higgs boson at the Large Hadron Collider (LHC) in 1,2 was an important milestone in high-energy physics. It completes a puzzle that scientists have been working on for.


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Evolution of Silicon Sensor Technology in Particle Physics by Frank Hartmann Download PDF EPUB FB2

The Evolution of Silicon Detector Technology acquaints readers with the manifold challenges involving the design of sensors and pushing this technology to the limits.

The expert will find critical information that is so far only available in various slide presentation scattered over the world wide by: The Evolution of Silicon Detector Technology acquaints readers with the manifold challenges involving the design of sensors and pushing this technology to the limits.

The expert will find critical information that is so far only available in various slide presentation scattered over the world wide cturer: Springer. The Evolution of Silicon Detector Technology acquaints readers with the manifold challenges involving the design of sensors and pushing this technology to the limits.

The expert will find critical information that is so far only available in various slide presentation scattered over the world wide web. Evolution of Silicon Sensor Technology in Particle Physics Hartmann, Frank ; Abstract. Publication: Evolution of Silicon Sensor Technology in Particle Physics Publication: Evolution of Silicon Sensor Technology in Particle Physics.

Pub Date: DOI: / Bibcode: .H full text sources. Publisher Cited by: Evolution of Silicon Sensor Technology in Particle Physics. Frank Hartmann (KIT, Karlsruhe) Nov 9, Published in: Springer Tracts () pp; ISBN: (Print), (eBook) Evolution of silicon sensor characteristics of the CMS silicon strip tracker.

The Silicon Sensors of the DELPHI Microvertex Detector (MVD) Silicon Labs in Universities to Build a Large Device Physics with the DELPHI Microvertex Detector 4 CDF: The World's Largest Silicon Detector in the 20th Century; the First Silicon Detector at a.

Furthermore, some novel signal routing strategies for silicon sensors have been applied on the wafers to achieve an implementation of a pitch adapter directly in the sensor, either in the first. Evolution of silicon sensors characteristics of the current CMS tracker Silicon detector properties are changing with irradiation, annealing and aging.

The main quantities which are influenced by these effects are the leakage current and the full depletion by: 3. Silicon is the dominant semiconductor material used in the production of position sensitive detectors for particle physics.

The moderate band gap between the conduction and the valence band of eV is large compared to the thermal energy at room temperature of by: 1.

Evolution of Silicon Sensor Technology in Particle Physics (Springer Tracts in Modern Physics), FrankHartmann - Shop Online for Books in the United States We use cookies to provide essential features and services.

By using our website you agree to our use of cookies. Evolution of silicon sensor te Staff View; Cite this; Text this; Email this; Export Record. Export to EndNoteWeb; Export to EndNote; Save to List; Add to Book Bag Remove from Book Bag.

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Hartmann, F. Evolution of Silicon Sensor Technology in Particle Physics 2nd edn (Springer, ). Moll, M. Displacement damage in silicon detectors for high energy : Philip Allport. Evolution of Silicon Sensor Technology in Particle Physics by Frank Hartmann,available at Book Depository with free delivery worldwide.

Evolution of Silicon Sensor Technology in Particle Physics: Frank Hartmann: Evolution of Silicon Sensor Technology in Particle Physics: Springer Tracts in Modern Physics, Volume Springer-Verlag Berlin Heidelberg, Publication Date.

Characteristics of an operating sensor Energy dissipation. A minimum ionizing particle traversing silicon loses energy at the rate d E ∕ d x = 3. 87 MeV/cm. As the mean ionization energy for silicon is E 0 = 3. 6 eV, a detector of thickness D = μ m will record a mean signal, in electron–hole pairs, given by (5) N e−h pairs = d E ∕ d x ⋅ D E 0 = 3.

2 × 1 0 4. (The Author: Sally Seidel. • Vicious circle: need silicon sensors for resolution and radiation hardness Ùcooling (sensors and electronics) Ùmore material Ùeven more secondary particles etc. Don’t win a beauty contest in this environment, but detectors are still very good.

The Evolution of Silicon Detector Technology acquaints readers with the manifold challenges involving the design of sensors and pushing this technology to the limits. The expert will find critical Author: Philip Allport. Since the first application of Silicon strip detectors in high energy physics in the early ies these detectors have enabled the experiments to perform new challenging measurements.

With these devices it became possible to determine the decay lengths of heavy quarks, for example in the fixed target experiment NA11 at CERN.

In this experiment Silicon tracking detectors were used for the Cited by: 1. Evolution of silicon sensor technology in particle physics. This informative monograph describes the technological evolution of silicon detectors and their impact on high- energy particle physics.

The author here marshals his own first-hand experience in the development and also the realization of the DELPHI, CDF II and the CMS tracking Author: Frank Hartmann. Basic principles of a silicon detector --Radiation damage in silicon detector devices --First steps with silicon sensors: NA11 (proof of principle) --The DELPHI microvertex detector at LEP --CDF: the.

Evolution of Silicon Sensor Technology in Particle Physics [1 ed.]Frank Hartmann Evolution of Silicon Sensor Technology in Particle Physics (Springer Tracts in Modern Physics) [1 ed.]Evolution of Particle Physics is concerned with the birth of particle physics and its maturation as a scientific field, with emphasis on advances in both theory and experiment.

Topics covered include weak interactions and the breaking of hadron symmetries; the role of complexity in nature; symmetry principles in physics; and isobaric analog.Evolution of silicon sensor technology in particle physics / Frank Hartmann. QCN83 H37 Finite elements: theory and algorithms / Sashikumaar Ganesan, Lutz Tobiska.

QCF56 G36 Graphene: fabrication, characterizations, properties and applications / edited by Hongwei Zhu, Zhiping Xu, Dan Xie, Ying Fang. TAG65 G68