Abstract
Abstract
The purpose of the present article is to demonstrate the calibration of photomultipliers
with a gaussian single photoelectron response using a numerical method based on the Discrete
Fourier Transform (DFT). Conventional techniques, commonly employed in the literature, use
approximate models or brute force numerical calculations of the convolution integrals that lead to
the charge response function of the photomultiplier, SR
(x). In this publication, we explain
how a truncated gaussian model for the single photoelectron amplification can lead to rigorous
results if one leans on the DFT approach. The distinct feature of this procedure is that SR
(x)
is calculated to all orders in the Poisson mean μ that characterizes the light intensity and
no approximations are needed. This scheme was applied to the calibration of the Hamamatsu R7081
photomultiplier tube and a comparison of the DFT approach with the more standard numerical
integration method is also presented. Last, toy Monte Carlo data were analyzed for different
values of μ to understand the precision of the DFT method.
Subject
Mathematical Physics,Instrumentation
Cited by
2 articles.
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1. Klyshko Method for Analog Photodetectors and Absolute Measurement of Photon Numbers;Bulletin of the Russian Academy of Sciences: Physics;2024-06
2. An analytical model for photomultiplier tube calibration;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2024-01