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V

V. Brisson

Researcher at Université Paris-Saclay

Publications -  535
Citations -  75299

V. Brisson is an academic researcher from Université Paris-Saclay. The author has contributed to research in topics: Gravitational wave & HERA. The author has an hindex of 100, co-authored 532 publications receiving 65072 citations. Previous affiliations of V. Brisson include RWTH Aachen University & University of Hamburg.

Papers
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Journal ArticleDOI

Search for gravitational wave ringdowns from perturbed intermediate mass black holes in LIGO-Virgo data from 2005-2010

J. Aasi, +865 more
- 27 May 2014 - 
TL;DR: In this paper, the authors reported an upper bound on the coalescence rate of binary IMBH mergers with non-spinning and equal mass components of either 1:1 or 4:1.
Journal Article

The VIRGO interferometer for gravitational wave detection

B. Caron, +92 more
- 01 Jan 1997 - 
TL;DR: The Virgo detector as mentioned in this paper is an interferometer with 3 km long arms in construction near Pisa in Italy, which has a significant effort to extend sensitivity to low frequency reaching the strain level h = 10−21 Hz−1/2 at 10 Hz while at 200 Hz h = 3 · 10−23 Hz− 1/2.
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Photoproduction of J/psi Mesons at HERA

T. Ahmed, +399 more
- 03 Nov 1994 - 
TL;DR: In this paper, a study of meson production in collisions of 26.7 GeV electrons with 820 GeV protons, performed with the H1-detector at the HERA collider at DESY, is presented.
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A direct search for stable magnetic monopoles produced in positron-proton collisions at HERA

A. Aktas, +306 more
- 17 Jan 2005 - 
TL;DR: In this article, a direct search was made for magnetic monopoles produced in e^+ p collisions at a center of mass energy of 300 GeV at HERA using a SQUID magnetometer.
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Coincidence and coherent data analysis methods for gravitational wave bursts in a network of interferometric detectors

Nicolas Arnaud, +8 more
- 11 Nov 2003 - 
TL;DR: In this paper, the authors compare the performance of the coincidence method and coherent analysis for detecting real gravitational wave (GW) transient events from detector noise using Monte Carlo simulations, and show that coherent analysis is more efficient than coincidence methods.