Toward gravitational wave detection

L.S. Finn; G. Gonzalez; J. Hough; M.F. Huq; S. Mohanty; J. Romano; S.; Rowan; P.R. Saulson; K.A. Strain

arXiv:gr-qc/9911001·gr-qc·October 31, 2009

Toward gravitational wave detection

L.S. Finn, G. Gonzalez, J. Hough, M.F. Huq, S. Mohanty, J. Romano, S., Rowan, P.R. Saulson, K.A. Strain

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TL;DR

This paper reviews tools and techniques for improving gravitational wave detection, including data conditioning, detector design evaluation, noise simulations, and analysis methods for gamma-ray burst sources.

Contribution

It provides an overview of current methods and tools developed for enhancing gravitational wave detection capabilities and analysis.

Findings

01

Development of data conditioning techniques

02

Evaluation of detector design models

03

Simulation of noise for data challenges

Abstract

An overview of some tools and techniques being developed for data conditioning (regression of instrumental and environmental artifacts from the data channel), detector design evaluation (modeling the science ``reach'' of alternative detector designs and configurations), noise simulations for mock data challenges and analysis system validation, and analyses for the detection of gravitational radiation from gamma-ray burst sources.

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