It is important to test the possible existence of fifth forces, as ultralight bosons that would mediate these are predicted to exist in several well-motivated extensions of the Standard Model. Recent work indicated asteroids as promising probes, but applications to real data are lacking so far. Here we use the OSIRIS-REx mission and ground-based tracking data for the asteroid Bennu to derive constraints on fifth forces. Our limits are strongest for mediator masses m ~ (10−18-10−17) eV, where we currently achieve the tightest bounds. These can be translated to a wide class of models leading to Yukawa-type fifth forces, and we demonstrate how they apply to U(1)B dark photons and baryon-coupled scalars. Our results demonstrate the potential of asteroid tracking in probing well-motivated extensions of the Standard Model and ultralight bosons near the fuzzy dark matter range.
Constraints on fifth forces and ultralight dark matter from OSIRIS-REx target asteroid Bennu / Tsai, Yu-Dai; Farnocchia, Davide; Micheli, Marco; Vagnozzi, Sunny; Visinelli, Luca. - In: COMMUNICATIONS PHYSICS. - ISSN 2399-3650. - 7:1(2024), p. 311. [10.1038/s42005-024-01779-3]
Constraints on fifth forces and ultralight dark matter from OSIRIS-REx target asteroid Bennu
Vagnozzi, SunnyCo-ultimo
;
2024-01-01
Abstract
It is important to test the possible existence of fifth forces, as ultralight bosons that would mediate these are predicted to exist in several well-motivated extensions of the Standard Model. Recent work indicated asteroids as promising probes, but applications to real data are lacking so far. Here we use the OSIRIS-REx mission and ground-based tracking data for the asteroid Bennu to derive constraints on fifth forces. Our limits are strongest for mediator masses m ~ (10−18-10−17) eV, where we currently achieve the tightest bounds. These can be translated to a wide class of models leading to Yukawa-type fifth forces, and we demonstrate how they apply to U(1)B dark photons and baryon-coupled scalars. Our results demonstrate the potential of asteroid tracking in probing well-motivated extensions of the Standard Model and ultralight bosons near the fuzzy dark matter range.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
