Status of NINJA: the Numerical INJection Analysis project

Benjamin Aylott; John G. Baker; William D. Boggs; Michael Boyle,; Patrick R. Brady; Duncan A. Brown; Bernd Br\"ugmann; Luisa T. Buchman,; Alessandra Buonanno; Laura Cadonati; Jordan Camp; Manuela Campanelli; Joan; Centrella; Shourov Chatterjis; Nelson Christensen; Tony Chu; Peter Diener,; Nils Dorband; Zachariah B. Etienne; Joshua Faber; Stephen Fairhurst; Benjamin; Farr; Sebastian Fischetti; Gianluca Guidi; Lisa M. Goggin; Mark Hannam; Frank; Herrmann; Ian Hinder; Sascha Husa; Vicky Kalogera; Drew Keppel; Lawrence E.; Kidder; Bernard J. Kelly; Badri Krishnan; Pablo Laguna; Carlos O. Lousto,; Ilya Mandel; Pedro Marronetti; Richard Matzner; Sean T. McWilliams; Keith D.; Matthews; R. Adam Mercer; Satyanarayan R. P. Mohapatra; Abdul H. Mrou\'e,; Hiroyuki Nakano; Evan Ochsner; Yi Pan; Larne Pekowsky; Harald P. Pfeiffer,; Denis Pollney; Frans Pretorius; Vivien Raymond; Christian Reisswig; Luciano; Rezzolla; Oliver Rinne; Craig Robinson; Christian R\"over; Luc\'ia; Santamar\'ia; Bangalore Sathyaprakash; Mark A. Scheel; Erik Schnetter,; Jennifer Seiler; Stuart L. Shapiro; Deirdre Shoemaker; Ulrich Sperhake,; Alexander Stroeer; Riccardo Sturani; Wolfgang Tichy; Yuk Tung Liu; Marc van; der Sluys; James R. van Meter; Ruslan Vaulin; Alberto Vecchio; John Veitch,; Andrea Vicer\'e; John T. Whelan; Yosef Zlochower

arXiv:0905.4227·gr-qc·March 26, 2010

Status of NINJA: the Numerical INJection Analysis project

Benjamin Aylott, John G. Baker, William D. Boggs, Michael Boyle,, Patrick R. Brady, Duncan A. Brown, Bernd Br\"ugmann, Luisa T. Buchman,, Alessandra Buonanno, Laura Cadonati, Jordan Camp, Manuela Campanelli, Joan, Centrella, Shourov Chatterjis, Nelson Christensen, Tony Chu

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TL;DR

The NINJA project is a collaborative effort between numerical relativity and data analysis communities to model and detect gravitational wave signals from binary coalescences, advancing gravitational wave astronomy.

Contribution

This paper reviews the scope and initial results of the NINJA project, highlighting the sharing of waveforms and detection techniques in a collaborative framework.

Findings

01

Shared waveform datasets for gravitational wave detection

02

Application of various detection techniques to simulated signals

03

Progress in modeling and analyzing gravitational wave signatures

Abstract

The 2008 NRDA conference introduced the Numerical INJection Analysis project (NINJA), a new collaborative effort between the numerical relativity community and the data analysis community. NINJA focuses on modeling and searching for gravitational wave signatures from the coalescence of binary system of compact objects. We review the scope of this collaboration and the components of the first NINJA project, where numerical relativity groups shared waveforms and data analysis teams applied various techniques to detect them when embedded in colored Gaussian noise.

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