Pontón, Eduardo [UNESP]Bai, Yang [UNESP]Jain, Bithika [UNESP]2022-04-292022-04-292019-09-01Journal of High Energy Physics, v. 2019, n. 9, 2019.1029-84791126-6708http://hdl.handle.net/11449/228715In the simple Higgs-portal dark matter model with a conserved dark matter number, we show that there exists a non-topological soliton state of dark matter. This state has smaller energy per dark matter number than a free particle state and has its interior in the electroweak symmetric vacuum. It could be produced in the early universe from first-order electroweak phase transition and contribute most of dark matter. This electroweak symmetric dark matter ball is a novel macroscopic dark matter candidate with an energy density of the electroweak scale and a mass of 1 gram or above. Because of its electroweak-symmetric interior, the dark matter ball has a large geometric scattering cross section off a nucleon or a nucleus. Dark matter and neutrino experiments with a large-size detector like Xenon1T, BOREXINO and JUNO have great potential to discover electroweak symmetric dark matter balls. We also discuss the formation of bound states of a dark matter ball and ordinary matter.engBeyond Standard ModelCosmology of Theories beyond the SMArtigo10.1007/s13130-019-11194-52-s2.0-85071950944