Volume 453, Number 2, July II 2006
|Page(s)||761 - 768|
|Section||Instruments, observational techniques, and data processing|
|Published online||16 June 2006|
An analysis method for time ordered data processing of dark matter experiments
Laboratoire de Physique Subatomique et de Cosmologie, CNRS/IN2P3 et Université Joseph Fourier, 53 avenue des Martyrs, 38026 Grenoble Cedex, France e-mail: Emmanuel.Moulin@lpta.in2p3.fr
2 Centre de Recherches sur les Très Basses Températures, CNRS et Université Joseph Fourier, BP 166, 38042 Grenoble Cedex 9, France
Accepted: 23 March 2006
Context.The analysis of the time ordered data of Dark Matter experiments is becoming more and more challenging with the increase of sensitivity in the ongoing and forthcoming projects. Combined with the well-known level of background events, this leads to a rather high level of pile-up in the data. Ionization, scintillation as well as bolometric signals present common features in their acquisition timeline: low frequency baselines, random Gaussian noise, parasitic noise and signal characterized by well-defined peaks. In particular, in the case of long-lasting signals such as bolometric ones, the pile-up of events may lead to an inaccurate reconstruction of the physical signal (misidentification as well as fake events).
Aims.We present a general method to detect and extract signals in noisy data with a high pile-up rate and we show that events from few keV to hundreds of keV can be reconstructed in time ordered data presenting a high pile-up rate.
Methods.This method is based on an iterative detection and fitting procedure combined with prior wavelet-based denoising of the data and baseline subtraction.
Results.We have tested this method on simulated data of the MACHe3 prototype experiment and shown that the iterative fitting procedure allows us to recover the lowest energy events, of the order of a few keV, in the presence of background signals from a few to hundreds of keV. Finally we applied this method to the recent MACHe3 data to successfully measure the spectrum of conversion electrons from source and also the spectrum of the background cosmic muons.
Key words: cosmology: dark matter / methods: data analysis / methods: numerical
© ESO, 2006
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