12. Links
5. Detektoren
Photomultiplier Tubes. Basics and Applications.
Grundlagen der Strahlungsmessung mit Photoelektronenvervielfachern; elektronische Beschaltung; Einzelphotonenmessung; Mikrokanalplatten; Anwendungen.
Grundlagen der Strahlungsmessung mit Photoelektronenvervielfachern; elektronische Beschaltung; Einzelphotonenmessung; Mikrokanalplatten; Anwendungen.
Autor: Toshikazu Hakamata und Editorial Committee, Hamamatsu Photonics K.K., Japan. Auflage 3a, 2007, 323 S.
Letzter Zugriff: 25.01.2017
Photomultiplier Handbook (PMT-62).
Design, Eigenschaften und Anwendungen von Photoelektronenvervielfachern; photometrische und radiometrische Grundlagen.
Design, Eigenschaften und Anwendungen von Photoelektronenvervielfachern; photometrische und radiometrische Grundlagen.
Autor: R W. Engstrom, RCA Electro-Optics and Devices, Lancaster, Pennsylvania, USA, 1980; Burle Industries, Pennsylvania, USA, 1986. 179 S.
Letzter Zugriff: 25.01.2017
RCA Photomultiplier Manual PT61.
Design, characteristics and applications of photomultiplier tubes; photometric and radiometric principles.
Design, characteristics and applications of photomultiplier tubes; photometric and radiometric principles.
Verlag: RCA Electro-Optics and Devices, Lancaster, Pennsylvania, USA, 1970. 193 S.
Letzter Zugriff: 25.01.2017
Guide to detector selection.
Choosing a detector requires evaluating many operating parameters and desired outcomes. This introduction provides a series of guideposts that will help lead the way to the right one.
Choosing a detector requires evaluating many operating parameters and desired outcomes. This introduction provides a series of guideposts that will help lead the way to the right one.
Autor: Earl Hergert. Verlag: Hamamatsu Photonics K.K., Japan, 2016.
Letzter Zugriff: 25.01.2017
The WITS$ guide to selecting a photodetector.
The process of selecting an appropriate photodetector among a photomultiplier tube (PMT), photodiode (PD), avalanche photodiode (APD), and silicon photomultiplier (SiPM) may seem taxing and confusing. This article provides qualitative and quantitative guidance to the selection process based on the WITS$ approach: Wavelength, Intensity, Time characteristics, Spatial characteristics, and cost ($).
The process of selecting an appropriate photodetector among a photomultiplier tube (PMT), photodiode (PD), avalanche photodiode (APD), and silicon photomultiplier (SiPM) may seem taxing and confusing. This article provides qualitative and quantitative guidance to the selection process based on the WITS$ approach: Wavelength, Intensity, Time characteristics, Spatial characteristics, and cost ($).
Autoren: Earl Hergert & Slawomir Piatek. Verlag: Hamamatsu Photonics K.K., Japan, 2016.
Letzter Zugriff: 25.01.2017
A technical guide to silicon photomultipliers (SiPM).
This technical note provides descriptions on various aspects of silicon photomultipliers, including how they work, their basic structure, and characteristics such as photon detection efficiency, gain, breakdown voltage, and optical crosstalk.
This technical note provides descriptions on various aspects of silicon photomultipliers, including how they work, their basic structure, and characteristics such as photon detection efficiency, gain, breakdown voltage, and optical crosstalk.
Autor: Slawomir Piatek. Verlag: Hamamatsu Photonics K.K., Japan, 2016.
Letzter Zugriff: 25.01.2017
