Publications by authors named "Lentati L"
Gravitational waves are expected to be radiated by supermassive black hole binaries formed during galaxy mergers. A stochastic superposition of gravitational waves from all such binary systems would modulate the arrival times of pulses from radio pulsars. Using observations of millisecond pulsars obtained with the Parkes radio telescope, we constrained the characteristic amplitude of this background, A(c,yr), to be <1.
View Article and Find Full Text PDFThe paucity of observed supermassive black hole binaries (SMBHBs) may imply that the gravitational wave background (GWB) from this population is anisotropic, rendering existing analyses suboptimal. We present the first constraints on the angular distribution of a nanohertz stochastic GWB from circular, inspiral-driven SMBHBs using the 2015 European Pulsar Timing Array data. Our analysis of the GWB in the ~2-90 nHz band shows consistency with isotropy, with the strain amplitude in l>0 spherical harmonic multipoles ≲40% of the monopole value.
View Article and Find Full Text PDFArticle Synopsis
- The Hubble Deep Field has allowed astronomers to observe thousands of galaxies over time, with one notable discovery being HDF 850.1, which emits at a wavelength sensitive to star formation.
- Researchers have now determined that HDF 850.1 has a redshift of z = 5.183, placing it in a galaxy cluster formed just 1.1 billion years after the Big Bang.
- Despite identifying its distance and mass, HDF 850.1 still lacks a visible starlight counterpart, making it a mysterious object in cosmic observations.*