Your search keyword '"C F Sopuerta"' showing total 2 results

1. 11-orbit inspiral of a mass ratio 4:1 black-hole binary.

Author

U Sperhake, B Brugmann, D Muller, and C F Sopuerta

Subjects

*SUPERMASSIVE black holes, *NUMERICAL analysis, *GRAVITATIONAL waves, *EXTRAPOLATION, *APPROXIMATION theory, *MASS (Physics)

Abstract

We analyse an 11-orbit inspiral of a non-spinning black-hole binary with mass ratio q [?] M1/M2 = 4. The numerically obtained gravitational waveforms are compared with post-Newtonian (PN) predictions including several subdominant multipoles up to multipolar indices (l = 5, m = 5). We find that (i) numerical and post-Newtonian predictions of the phase of the (2, 2) mode accumulate a phase difference of about 0.35 rad at the PN cut-off frequency Mo = 0.1 for the Taylor T1 approximant when numerical and PN waveforms are matched over a window in the early inspiral phase; (ii) in contrast to previous studies of equal mass and specific spinning binaries, we find the Taylor T4 approximant to agree less well with numerical results, provided the latter are extrapolated to infinite extraction radius; (iii) extrapolation of gravitational waveforms to infinite extraction radius is particularly important for subdominant multipoles with l [?] m; (iv) 3PN terms in post-Newtonian multipole expansions significantly improve the agreement with numerical predictions for subdominant multipoles. [ABSTRACT FROM AUTHOR]

Published

2011

2. The diagnostics subsystem on board LISA Pathfinder and LISA.

Author

P Canizares, A Conchillo, E Garcia, L Gesa, C Grimani, I Lloro, A Lobo, I Mateos, M Nofrarias, J Ramos, J Sanjuan, and C F Sopuerta

Subjects

*LASER interferometry, *AEROSPACE engineering, *DATA analysis, *RADIATION measurements, *LINUX operating systems, *SPACE exploration, *OUTER space

Abstract

The data and diagnostics subsystem of the LTP hardware and software are at present essentially ready for delivery. In this presentation we intend to describe the scientific and technical aspects of this subsystem, which includes thermal diagnostics, magnetic diagnostics and a radiation monitor, as well as the prospects for their integration within the rest of the LTP. We will also sketch a few lines of progress recently open towards the more demanding diagnostics requirements which will be needed for LISA. [ABSTRACT FROM AUTHOR]

Published

2009