Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets

A Stroeer; John Veitch; C Roever; E Bloomer; J Clark; N Christensen; M Hendry; C Messenger; R Meyer; M Pitkin; J Toher; R Umstaetter; Alberto Vecchio; G Woan

doi:10.1088/0264-9381/24/19/s17

Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets

A Stroeer, John Veitch, C Roever, E Bloomer, J Clark, N Christensen, M Hendry, C Messenger, R Meyer, M Pitkin, J Toher, R Umstaetter, Alberto Vecchio, G Woan

Physics and Astronomy

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13 Citations (Scopus)

Abstract

We report on the analysis of selected single source data sets from the first round of the mock LISA data challenges (MLDC) for white dwarf binaries. We implemented an end-to-end pipeline consisting of a grid-based coherent pre-processing unit for signal detection and an automatic Markov Chain Monte Carlo ( MCMC) post-processing unit for signal evaluation. We demonstrate that signal detection with our coherent approach is secure and accurate, and is increased in accuracy and supplemented with additional information on the signal parameters by our Markov Chain Monte Carlo approach. We also demonstrate that the Markov Chain Monte Carlo routine is additionally able to determine accurately the noise level in the frequency window of interest.

Original language	English
Pages (from-to)	S541-S549
Journal	Classical and Quantum Gravity
Volume	24
Issue number	19
DOIs	https://doi.org/10.1088/0264-9381/24/19/s17
Publication status	Published - 1 Jan 2007

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Stroeer, A., Veitch, J., Roever, C., Bloomer, E., Clark, J., Christensen, N., Hendry, M., Messenger, C., Meyer, R., Pitkin, M., Toher, J., Umstaetter, R., Vecchio, A., & Woan, G. (2007). Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets. Classical and Quantum Gravity, 24(19), S541-S549. https://doi.org/10.1088/0264-9381/24/19/s17

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title = "Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets",

abstract = "We report on the analysis of selected single source data sets from the first round of the mock LISA data challenges (MLDC) for white dwarf binaries. We implemented an end-to-end pipeline consisting of a grid-based coherent pre-processing unit for signal detection and an automatic Markov Chain Monte Carlo ( MCMC) post-processing unit for signal evaluation. We demonstrate that signal detection with our coherent approach is secure and accurate, and is increased in accuracy and supplemented with additional information on the signal parameters by our Markov Chain Monte Carlo approach. We also demonstrate that the Markov Chain Monte Carlo routine is additionally able to determine accurately the noise level in the frequency window of interest.",

author = "A Stroeer and John Veitch and C Roever and E Bloomer and J Clark and N Christensen and M Hendry and C Messenger and R Meyer and M Pitkin and J Toher and R Umstaetter and Alberto Vecchio and G Woan",

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Stroeer, A, Veitch, J, Roever, C, Bloomer, E, Clark, J, Christensen, N, Hendry, M, Messenger, C, Meyer, R, Pitkin, M, Toher, J, Umstaetter, R, Vecchio, A & Woan, G 2007, 'Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets', Classical and Quantum Gravity, vol. 24, no. 19, pp. S541-S549. https://doi.org/10.1088/0264-9381/24/19/s17

TY - JOUR

T1 - Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets

AU - Stroeer, A

AU - Veitch, John

AU - Roever, C

AU - Bloomer, E

AU - Clark, J

AU - Christensen, N

AU - Hendry, M

AU - Messenger, C

AU - Meyer, R

AU - Pitkin, M

AU - Toher, J

AU - Umstaetter, R

AU - Vecchio, Alberto

AU - Woan, G

PY - 2007/1/1

Y1 - 2007/1/1

N2 - We report on the analysis of selected single source data sets from the first round of the mock LISA data challenges (MLDC) for white dwarf binaries. We implemented an end-to-end pipeline consisting of a grid-based coherent pre-processing unit for signal detection and an automatic Markov Chain Monte Carlo ( MCMC) post-processing unit for signal evaluation. We demonstrate that signal detection with our coherent approach is secure and accurate, and is increased in accuracy and supplemented with additional information on the signal parameters by our Markov Chain Monte Carlo approach. We also demonstrate that the Markov Chain Monte Carlo routine is additionally able to determine accurately the noise level in the frequency window of interest.

AB - We report on the analysis of selected single source data sets from the first round of the mock LISA data challenges (MLDC) for white dwarf binaries. We implemented an end-to-end pipeline consisting of a grid-based coherent pre-processing unit for signal detection and an automatic Markov Chain Monte Carlo ( MCMC) post-processing unit for signal evaluation. We demonstrate that signal detection with our coherent approach is secure and accurate, and is increased in accuracy and supplemented with additional information on the signal parameters by our Markov Chain Monte Carlo approach. We also demonstrate that the Markov Chain Monte Carlo routine is additionally able to determine accurately the noise level in the frequency window of interest.

U2 - 10.1088/0264-9381/24/19/s17

DO - 10.1088/0264-9381/24/19/s17

M3 - Article

SN - 1361-6382

VL - 24

SP - S541-S549

JO - Classical and Quantum Gravity

JF - Classical and Quantum Gravity

IS - 19

ER -

Inference on white dwarf binary systems using the first round Mock LISA Data Challenges data sets

Abstract

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