Scientists Say , Gravitational Wave Detection , May Help in Search for Alien Life.<br />'Futurism' reports that a team of scientists <br />have proposed using Earth-based observatories <br />to search for advanced civilizations by <br />looking for hypothetical warp drive activity.<br />According to 'Universe Today,' a team of researchers <br />argue that looking for specific types of gravitational <br />waves could indicate advanced forms of life <br />with powerful technological capabilities.<br />'Futurism' reports that gravitational waves <br />can be detected from huge distances, <br />even in the deepest reaches of the cosmos.<br />'Futurism' reports that gravitational waves <br />can be detected from huge distances, <br />even in the deepest reaches of the cosmos.<br />Gravitational waves send out massive <br />ripples in space and time, which have already <br />been detected by Earth-based observatories.<br />The team of researchers argue that warp drives, a hypothetical propulsion system that allows for speed of light travel, could create similar ripples.<br />Our study of warp drives <br />has paved the way for <br />gravitational wave detection, Gianni Martire, Coauthor and CEO <br />of Applied Physics, via 'Futurism'.<br />This new method is not limited to <br />the traditional range of electromagnetic <br />signals; thus we already have the ability <br />to probe all 10¹¹ stars in the Milky Way <br />for warp drives, and soon, the ability <br />to probe thousands of other galaxies, Gianni Martire, Coauthor and CEO <br />of Applied Physics, via 'Futurism'.<br />According to the team, Applied Physics has <br />teamed with Carnegie Mellon to create , "the first machine learning-based model that will <br />be sensitive enough to detect these warp drive <br />signals and distinguish them from background noise.".<br />According to the team, Applied Physics has <br />teamed with Carnegie Mellon to create , "the first machine learning-based model that will <br />be sensitive enough to detect these warp drive <br />signals and distinguish them from background noise.".<br />The team still admits that human <br />technologies have some catching <br />up to do with hypothetical theories. .<br />Gravitational wave detection is still <br />in its infancy. Future experimental <br />improvements will open <br />the gates for new discoveries, Manfred Paulini, Professor of physics and associate dean at Carnegie Mellon University, via 'Futurism'
