Edgard F. D. Evangelista scite author profile

Edgard F. D. Evangelista

5Publications

60Citation Statements Received

84Citation Statements Given

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Affiliations

National Institute for Space Research

Publications

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The Schenberg spherical gravitational wave detector: the first commissioning runs

Aguiar

Andrade

Barroso

et al. 2008

Class. Quantum Grav.

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Here we present a status report of the first spherical antenna project equipped with a set of parametric transducers for gravitational detection. The Mario Schenberg, as it is called, started its commissioning phase at the Physics Institute of the University of São Paulo, in September 2006, under the full support of FAPESP. We have been testing the three preliminary parametric transducer systems in order to prepare the detector for the next cryogenic run, when it will be calibrated. We are also developing sapphire oscillators that will replace the current ones thereby providing better performance. We also plan to install eight transducers in the near future, six of which are of the two-mode type and arranged according to the truncated icosahedron configuration. The other two, which will be placed close to the sphere equator, will be mechanically non-resonant. In doing so, we want to verify that if the Schenberg antenna can become a wideband gravitational wave detector through the use of an ultra-high sensitivity non-resonant transducer constructed using the recent achievements of nanotechnology.

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Status Report of the Schenberg Gravitational Wave Antenna

Aguiar

Barroso

Carvalho

et al. 2012

J. Phys.: Conf. Ser.

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The Gravitational Wave Background from Coalescing Compact Binaries: A New Method

Evangelista

Araújo

2014

Braz J Phys

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Gravitational waves are perturbations in the spacetime that propagate at the speed of light. The study of such phenomenon is interesting because many cosmological processes and astrophysical objects, such as binary systems, are potential sources of gravitational radiation and can have their emissions detected in the near future by the next generation of interferometric detectors. Concerning the astrophysical objects, an interesting case is when there are several sources emitting in such a way that there is a superposition of signals, resulting in a smooth spectrum which spans a wide range of frequencies, the so-called stochastic background. In this paper, we are concerned with the stochastic backgrounds generated by compact binaries (i.e. binary systems formed by neutron stars and black holes) in the coalescing phase. In particular, we obtain such backgrounds by employing a new method developed in our previous studies.

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A New Method to Calculate the Stochastic Background of Gravitational Waves Generated by Compact Binaries

Evangelista

Araújo

2013

Mod. Phys. Lett. A

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In the study of gravitational waves (GWs), the stochastic background generated by compact binary systems are among the most important kinds of signals. The reason for such an importance has to do with their probable detection by the interferometric detectors [such as the Advanced LIGO (ALIGO) and Einstein Telescope (ET)] in the near future. In this paper we are concerned with, in particular, the stochastic background of GWs generated by double neutron star (DNS) systems in circular orbits during their periodic and quasi-periodic phases. Our aim here is to describe a new method to calculate such spectra, which is based on an analogy with a problem of Statistical Mechanics. Besides, an important characteristic of our method is to consider the time evolution of the orbital parameters.

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Stochastic Background of Gravitational Waves Generated by Compact Binary Systems

Evangelista

Araújo

2014

Braz J Phys

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