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Literature Catalog: Data Analysis: Stochastic
Also sorted by authorLast updated June 19, 2002.
2002
B. Allen, J. D. E. Creighton, E. E. Flanagan and J. D. Romano, Robust statistics for deterministic and stochastic gravitational waves in non-Gaussian noise. II: Bayesian analysesE. Coccia, M. Gasperini and C. Ungarelli, Sensitivity of spherical gravitational-wave detectors to a stochastic background of non-relativistic scalar radiation, Phys. Rev. D65, 067101, (2002).
N. J. Cornish, Detecting a stochastic gravitational wave background with the Laser Interferometer Space Antenna, Phys. Rev. D65, 022004, (2002).
A. Lazzarini and L. S. Finn, A technique to modulate the signature of a stochastic gravitational wave background, Class. Quantum Grav. 19, 1485-1492, (2002).
C. Ungarelli and A. Vecchio, Studying the anisotropy of the gravitational wave stochastic background with LISA, Phys. Rev. D64, 121501, (2002).
A. Vecchio, LISA and gravitational-wave stochastic backgrounds, Class. Quantum Grav. 19, 1449-1455, (2002).
J. Whelan et al, Progress on stochastic background search codes for LIGO, Class. Quantum Grav. 19, 1521-1528, (2002).
2001
B. Allen, J. D. E. Creighton, E. E. Flanagan and J. D. Romano, Robust statistics for deterministic and stochastic gravitational waves in non-Gaussian noise I: Frequentist analysesD. Babusci and M. Giovannini, Response of VIRGO detectors to pre-big-bang gravitons, Int. J .Mod .Phys. D10, 477-500, (2001).
D. Babusci, L. Baiotti, F. Fucito and A. Nagar, On the Detection of a Scalar Stochastic Background of Gravitational Waves, Phys. Rev. D64, 062001, (2001).
N. J. Cornish, Mapping the gravitational wave background, Class. Quantum Grav.18, 4277-4292, (2001).
N. J. Cornish and S. L. Larson, Space missions to detect the cosmic gravitational-wave background, Class. Quant. Grav. 18, 3473-3496, (2001).
S. Drasco and E. E. Flanagan, Detecting a non-Gaussian stochastic background of gravitational radiation, Proceedings of the 9th Marcel Grossmann Meeting, Rome, 2-8 July, 2000.
M. Gasperini and C. Ungarelli, Detecting a relic background of scalar waves with LIGO, Phys. Rev. D64, 064009, (2001).
R. W. Hellings, Spatially Filtering the Binary Confusion Noise for Space Gravitational Wave Detectors, submitted to Physical Review Letters.
2000
P. Astone, V. Ferrari, M. Maggiore and J. D. Romano, Stochastic Background of Gravitational Waves, Int. J. Mod. Phys. D 9, 361-368, (2000).D. Babusci and M. Giovannini, Sensitivity of a VIRGO pair to stochastic GW backgrounds, Class. Quantum Grav. 17, 2621-2633, (2000).
F. Fucito, Detection of Scalar Gravitational Waves
M. Giovannini, Stochastic GW backgrounds and Ground based detectors, Contributed paper to CAPP-2000, Verbier (Switzerland), July 2000.
M. Maggiore and A. Nicolis, Detection strategies for scalar gravitational waves with interferometers and resonant spheres, Phys. Rev. D62, 024004, (2000).
1999
B. Allen and J. D. Romano, Detecting a stochastic background of gravitational radiation: Signal processing strategies and sensitivities, Phys. Rev. D59, 102001, (1999).D. Babusci and M. Giovannini, Upgraded VIRGO detector(s) and stochastic gravitational waves backgrounds
D. Babusci and M. Giovannini, Maximal overlap and sensitivity of a VIRGO pair to graviton backgrounds
1997
B. Allen and A. C. Ottewill, Detection of Anisotropies in the Gravitational-Wave Stochastic Background, Phys. Rev. D56, 545-563, (1997).
1996
B. Allen, The stochastic gravity-wave background: sources and detection
1993
E. E. Flanagan, The Sensitivity of Ligo to a Stochastic Background, and its Dependance on the Detector Orientation, Phys. Rev. D48, 2389-2407, (1993).