Tulin, SeanBautista Chivata, Yilber Fabian2022-12-142022-12-142022-07-142022-12-14http://hdl.handle.net/10315/40677In this thesis we present a study of the computation of classical observables in gauge theories and gravity directly from scattering amplitudes. In particular, we discuss the direct application of modern amplitude techniques in the one, and two-body problems for both, scattering and bounded scenarios, and in both, classical electrodynamics and gravity, with particular emphasis on spin effects in general, and in four spacetime dimensions. Among these observables we have the conservative linear impulse and the radiated waveform in the two-body problem, and the differential cross section for the scattering of waves off classical spinning compact objects. The implication of classical soft theorems in the computation of classical radiation is also discussed. Furthermore, formal aspects of the double copy for massive spinning matter, and its application in a classical two-body context are considered. Finally, the relation between the minimal coupling gravitational Compton amplitude and the scattering of gravitational waves off the Kerr black hole is presented.Author owns copyright, except where explicitly noted. Please contact the author directly with licensing requests.PhysicsTheoretical physicsQuantum physicsElectronic Thesis or Dissertation2022-12-14Quantum field theoryGravityGravitational wavesDouble copyScattering amplitudes