Beijing Institute of Mathematical Sciences and Applications

Lars Andersson , Bo Wen Zhao

Verónica Vázquez Aceves

Monday, May 20, 2024 3:30 PM - 5:00 PM

Online

Zoom 559 700 6085 (BIMSA)

Estimating the spin of SgrA* is one of the current challenges we face in understanding the center of our Galaxy. We show that detecting the gravitational waves (GWs) emitted by a brown dwarf inspiraling around SgrA* will allow us to measure the mass and the spin of SgrA* with unprecedented accuracy. Such systems are known as extremely large mass-ratio inspirals (XMRIs) and are expected to be abundant and loud sources in our galactic center. We consider XMRIs with a fixed orbital inclination and different spins of SgrA*(s) between $0.1$ and $0.9$. For both cases, we obtain the number of circular and eccentric XMRIs expected to be detected by space-borne GW detectors like LISA and TianQin. We find that if the orbit is eccentric, then we expect to always have several XMRIs in band while for almost circular XMRIs, we only expect to have one source in band if SgrA* is highly spinning. We later perform a Fisher matrix analysis to show that by detecting a single XMRI the mass of SgrA∗ can be determined with an accuracy of the order $10^{−2}$ solar masses, while the spin can be measured with an accuracy between $10^{−7}$ and $10^{−4}$ depending on the orbital parameters of the XMRI.