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@Article{BortoliFrajAgui:2018:ScMiCa,
               author = "Bortoli, F. S. and Frajuca, C. and Aguiar, Odylio Denys de",
          affiliation = "{Instituto Federal de S{\~a}o Paulo (IFSP)} and {Instituto 
                         Federal de S{\~a}o Paulo (IFSP)} and {Instituto Nacional de 
                         Pesquisas Espaciais (INPE)}",
                title = "Schenberg microwave cabling seismic isolation",
              journal = "Journal of Physics: Conference Series",
                 year = "2018",
               volume = "957",
               number = "1",
                pages = "e012013",
                month = "mar.",
                 note = "{12th Edoardo Amaldi Conference on Gravitational Waves (AMALDI 
                         12)}",
             abstract = "SCHENBERG is a resonant-mass gravitational wave detector with a 
                         frequency about 3.2 kHz. Its spherical antenna, weighing 1.15 
                         metric ton, is connected to the external world by a system which 
                         must attenuate seismic noise. When a gravitational wave passes the 
                         antenna vibrates, its motion is monitored by transducers. These 
                         parametric transducers uses microwaves carried by coaxial cables 
                         that are also connected to the external world, they also carry 
                         seismic noise. In this analysis the system was modeled using 
                         finite element method. This work shows that the addition of masses 
                         along these cables can decrease this noise, so that this noise is 
                         below the thermal noise of the detector when operating at 50 mK.",
                  doi = "10.1088/1742-6596/957/1/012013",
                  url = "http://dx.doi.org/10.1088/1742-6596/957/1/012013",
                 issn = "1742-6588",
             language = "en",
           targetfile = "bortoli_schenberg.pdf",
        urlaccessdate = "04 dez. 2020"
}


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