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New physics from space: gravitational waves

Grant number:06/56041-3
Support Opportunities:Research Projects - Thematic Grants
Start date: April 01, 2007
End date: September 30, 2013
Field of knowledge:Physical Sciences and Mathematics - Physics - Elementary Particle Physics and Fields
Principal Investigator:Odylio Denys de Aguiar
Grantee:Odylio Denys de Aguiar
Host Institution: Instituto de Física (IF). Universidade de São Paulo (USP). São Paulo , SP, Brazil
City of the host institution:São Paulo
Principal investigatorsJose Carlos Neves de Araujo
Associated research grant(s):11/11719-0 - Data analysis for gravitational wave experiments, AV.EXT
11/13272-3 - Gravitational waves and perturbations of neutron stars, AV.EXT
09/01067-6 - 8th Edoardo Amaldi Conference on Gravitational Waves, AR.EXT
Associated scholarship(s):12/22752-1 - Multi-nested pendula: a new cryogenic vibrational isolation system for the Advanced LIGO gravitational waves detector, BP.DR
10/09101-6 - Development of the data analysis pipeline for burst and periodic signals in the Mario Schenberg gravitational wave detector and viability study of microwave oscilators in space, BP.PD
07/07332-8 - A Noise Model for the LISA Gravitational Wave Detector., BP.IC

Abstract

The first gravitational wave detection and the regular observation of gravitational waves are certainly among the most important scientific goals and technological challenges for the beginning of this millennium. They will open a new window for the observation of the universe. In this thematic project we proposed the first four years of operation of the Mario Schenberg gravitational wave detector, the development of the transducer technology for very high sensitivity performance of this detector, the upgrade of the Schenberg detector for operation at milikelvin temperatures, the development of software for gravitational wave data analysis and data acquisition of this detector and other foreign detectors, and the study of gravitational waves and their sources. The Mario Schenberg gravitational wave detector is composed of a 1.15 ton and 65-cm-diameter CuA16% spherical antenna and was constructed at the University of São Paulo under a large brazilian and international collaboration with full support of FAPESP. It will be operating with an initial target strain noise power spectral density h ~ 2 x 10-21 Hz-½ in a bandwidth of about 50Hz around 3.2 kHz. When operational this detector will be part of an international network of detectors/observatories. The goal of this network is the improvement of the quality and the reliability of the detected signal. (AU)

Articles published in Agência FAPESP Newsletter about the research grant:
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VEICULO: TITULO (DATA)
VEICULO: TITULO (DATA)

Scientific publications (18)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
DA SILVA COSTA, C. F.; FAUTH, A. C.; PEREIRA, L. A. S.; AGUIAR, O. D.. The cosmic ray veto system of the Mario Schenberg gravitational wave detector. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SP, v. 752, p. 65-70, . (13/00621-5, 06/56041-3, 10/09101-6)
TINTO, MASSIMO; DA SILVA ALVES, MARCIO EDUARDO. LISA sensitivities to gravitational waves from relativistic metric theories of gravity. Physical Review D, v. 82, n. 12, p. 122003, . (06/56041-3)
BORTOLI, FABIO DA SILVA; FRAJUCA, CARLOS; MAGALHAES, NADJA S.; AGUIAR, ODYLIO D.; DE SOUZA, SERGIO TURANO. On the Cabling Seismic Isolation for the Microwave Transducers of the Schenberg Detector. Brazilian Journal of Physics, v. 49, n. 1, p. 133-139, . (13/26258-4, 06/56041-3)
FRAJUCA, CARLOS; DA SILVA BORTOLI, FABIO; MAGALHAES, NADJA SIMAO. The Analysis of a Proposed Experiment to Measure the Speed of Gravity in Short Distances. Advances in High Energy Physics, v. 2022, p. 8-pg., . (06/56041-3, 13/26258-4)
AGUIAR, O. D.; BARROSO, J. J.; CARVALHO, N. C.; CASTRO, P. J.; CEDENO, C. E.; DA SILVA COSTA, C. F.; DE ARAUJO, J. C. N.; EVANGELISTA, E. F. D.; FURTADO, S. R.; MIRANDA, O. D.; et al. Status Report of the Schenberg Gravitational Wave Antenna. WAKE CONFERENCE 2021, v. 363, p. 8-pg., . (98/13468-9, 06/56041-3)
CONSTANCIO, JR., M.; AGUIAR, O. D.; KEISER, G. MCCURRACH; MALHEIRO, M.; LEMOS, L. J. RANGEL. Do coupled nested pendula have the same eigenfrequencies as pendula in cascade?. Journal of Instrumentation, v. 9, . (12/22752-1, 06/56041-3)
DE PAULA, L. A. N.; AGUIAR, O. D.; OLIVEIRA, JR., N. F.. Remote coupling between a probe and a superconducting klystron cavity for use in gravitational wave detectors. Journal of Instrumentation, v. 8, . (98/13468-9, 06/56041-3)
DA SILVA ALVES, MARCIO EDUARDO; TINTO, MASSIMO. Pulsar timing sensitivities to gravitational waves from relativistic metric theories of gravity. Physical Review D, v. 83, n. 12, . (06/56041-3)
AGUIAR, O. D.; ANDRADE, L. A.; BARROSO, J. J.; CASTRO, P. J.; COSTA, C. A.; SOUZA, S. T. DE; WAARD, A. DE; FAUTH, A. C.; FRAJUCA, C.; FROSSATI, G.; et al. The Schenberg spherical gravitational wave detector: the first commissioning runs. Classical and Quantum Gravity, v. 25, n. 11, p. 0-0, . (05/00214-4, 98/13468-9, 06/56041-3)
LENZI‚ C.H.; MAGALHÃES‚ N.S.; MARINHO JR‚ R.M.; COSTA‚ C.A.; ARAÚJO‚ H.A.B.; AGUIAR‚ O.D.. Solution of the inverse problem in spherical gravitational wave detectors using a model with independent bars. Physical Review D, v. 78, n. 6, p. 062005, . (06/56041-3, 06/07316-0)
AGUIAR, ODYLIO DENYS. Past, present and future of the Resonant-Mass gravitational wave detectors. Research in Astronomy and Astrophysics, v. 11, n. 1, p. 1-42, . (98/13468-9, 06/56041-3)
AGUIAR‚ O.D.. Past‚ present and future of the Resonant-Mass gravitational wave detectors. Research in Astronomy and Astrophysics, v. 11, n. 1, p. 1, . (06/56041-3, 98/13468-9)
LICCARDO, V.; LENZI, C. H.; MARINHO, R. M., JR.; AGUIAR, O. D.; FRAJUCA, C.; DA SILVA BORTOLI, F.; COSTA, C. A.. The design strain sensitivity of the schenberg spherical resonant antenna for gravitational waves. SCIENTIFIC REPORTS, v. 13, n. 1, p. 20-pg., . (17/05660-0, 98/13468-9, 13/26258-4, 18/02026-0, 20/05238-9, 06/56041-3)
FRAJUCA, C.; BORTOLI, F. S.; NAKAMOTO, F. Y.; SANTOS, G. A.; MESHKOV, S. Gravitational Waves Propagation through the Stochastic Background of Gravitational Waves. WAKE CONFERENCE 2021, v. 957, p. 6-pg., . (13/26258-4, 06/56041-3)
FRAJUCA, C.; PIRES, R.; BORTOLI, F. S.; MELO, R. F.; MAGALHAES, N. S.; MARINHO, R. M., JR.; OLIVEIRA, F. G.; AGUIAR, O. D.; JOHNSON, W. W.; MARKA, Z; et al. Searching for monochromatic signals in the ALLEGRO gravitational wave detector data. WAKE CONFERENCE 2021, v. 228, p. 5-pg., . (09/01067-6, 06/56041-3, 06/07316-0)
DA SILVA COSTA, C. F.; AGUIAR, O. D.; SATHYAPRAKASH, BS; SINGH, TP. Spherical gravitational wave detectors: MiniGRAIL and Mario Schenberg. WAKE CONFERENCE 2021, v. 484, p. 5-pg., . (10/09101-6, 06/56041-3)
AGGARWAL, NANCY; AGUIAR, ODYLIO D.; BAUSWEIN, ANDREAS; CELLA, GIANCARLO; CLESSE, SEBASTIAN; CRUISE, ADRIAN MICHAEL; DOMCKE, VALERIE; FIGUEROA, DANIEL G.; GERACI, ANDREW; GORYACHEV, MAXIM; et al. Challenges and opportunities of gravitational-wave searches at MHz to GHz frequencies. LIVING REVIEWS IN RELATIVITY, v. 24, n. 1, . (98/13468-9, 06/56041-3)
FRAJUCA, C.; BORTOLI, F. S.; VLACHOS, DS. MODELLING AN EXPERIMENT TO MEASURE THE SPEED OF GRAVITY IN SHORT DISTANCES. WAKE CONFERENCE 2021, v. 1391, p. 6-pg., . (13/26258-4, 06/56041-3)