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Polarized Vector Oscillons

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arxiv 2111.08700 v2 pith:FYZUZPFL submitted 2021-11-16 astro-ph.CO

Polarized Vector Oscillons

classification astro-ph.CO
keywords oscillonsvectorfieldpolarizedconfigurationsdarkenergylong-lived
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Oscillons are spatially localized, time-periodic and long-lived configurations that were primarily proposed in scalar field theories with attractive self-interactions. In this letter, we demonstrate that oscillons also exist in the low-energy effective theory of an interacting massive (real) vector field. We provide two types of vector oscillons with vanishing orbital angular momentum, and approximately spherically symmetric energy density, but not field configurations. These are: (1) "directional" oscillons (linearly polarized), with vanishing total intrinsic spin, and (2) "spinning" oscillons (circularly polarized) with a macroscopic instrinsic spin equal to $\hbar\times$ number of particles in the oscillon. In contrast to the case with only gravitational interactions, the two oscillons have different energy at a fixed particle number even in the nonrelativistic limit. By carrying out relativistic $3+1$d simulations, we show that these oscillons can be long-lived (compared to the oscillation time for the fields), and can arise from a range of Gaussian initial spatial profiles. These considerations make vector oscillons potentially relevant during the early universe and in dark photon dark matter, with novel phenomenology related to their polarization.

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Forward citations

Cited by 2 Pith papers

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  2. Dipole Radiation and Kinetic Mixing from Dark Photon Solitons

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    Dark photon solitons emit photons through external-field dipole radiation and kinetic mixing, offering a novel astrophysical signature for wave-like dark matter.