SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3110690423> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W3110690423 abstract "Dark sector particles with small electric charge, or millicharge, (mCPs) may lead to a variety of diverse phenomena in particle physics, astrophysics and cosmology. Assuming their possible existence, we investigate the accumulation and propagation of mCPs in matter, specifically inside the Earth. Even small values of millicharge lead to sizeable scattering cross sections on atoms, resulting in complete thermalization, and as a consequence, considerable build-up of number densities of mCPs, especially for the values of masses of GeV and higher when the evaporation becomes inhibited. Enhancement of mCP densities compared to their galactic abundance, that can be as big as $10^{14}$, leads to the possibility of new experimental probes for this model. The annihilation of pairs of mCPs will result in new signatures for the large volume detectors (such as Super-Kamiokande). Formation of bound states of negatively charged mCPs with nuclei can be observed by direct dark matter detection experiments. A unique probe of mCP can be developed using underground electrostatic accelerators that can directly accelerate mCPs above the experimental thresholds of direct dark matter detection experiments." @default.
W3110690423 created "2020-12-21" @default.
W3110690423 creator A5006432839 @default.
W3110690423 creator A5031919806 @default.
W3110690423 date "2021-06-25" @default.
W3110690423 modified "2023-10-11" @default.
W3110690423 title "Earth-bound millicharge relics" @default.
W3110690423 cites W1689327406 @default.
W3110690423 cites W1964025867 @default.
W3110690423 cites W1969450879 @default.
W3110690423 cites W1972333647 @default.
W3110690423 cites W1978508432 @default.
W3110690423 cites W1988409168 @default.
W3110690423 cites W2103442489 @default.
W3110690423 cites W2122765019 @default.
W3110690423 cites W2129707474 @default.
W3110690423 cites W2140664595 @default.
W3110690423 cites W2254572786 @default.
W3110690423 cites W2265495670 @default.
W3110690423 cites W2269330944 @default.
W3110690423 cites W2278076889 @default.
W3110690423 cites W2337860387 @default.
W3110690423 cites W2736869593 @default.
W3110690423 cites W2760142586 @default.
W3110690423 cites W2781849668 @default.
W3110690423 cites W2790161402 @default.
W3110690423 cites W2790232391 @default.
W3110690423 cites W2794699012 @default.
W3110690423 cites W2807315164 @default.
W3110690423 cites W2886966274 @default.
W3110690423 cites W2887780866 @default.
W3110690423 cites W2892848381 @default.
W3110690423 cites W2904808470 @default.
W3110690423 cites W2924394499 @default.
W3110690423 cites W2930921229 @default.
W3110690423 cites W2956154178 @default.
W3110690423 cites W2963488414 @default.
W3110690423 cites W2969508997 @default.
W3110690423 cites W2969603438 @default.
W3110690423 cites W2978367502 @default.
W3110690423 cites W2989633088 @default.
W3110690423 cites W2990707528 @default.
W3110690423 cites W2990763927 @default.
W3110690423 cites W3007677676 @default.
W3110690423 cites W3023783447 @default.
W3110690423 cites W3036099638 @default.
W3110690423 cites W3037420248 @default.
W3110690423 cites W3038089099 @default.
W3110690423 cites W3090579466 @default.
W3110690423 cites W3092960026 @default.
W3110690423 cites W3093690346 @default.
W3110690423 cites W3098166760 @default.
W3110690423 cites W3098198907 @default.
W3110690423 cites W3098320947 @default.
W3110690423 cites W3098757026 @default.
W3110690423 cites W3101194198 @default.
W3110690423 cites W3103404374 @default.
W3110690423 cites W3103547075 @default.
W3110690423 cites W3109941933 @default.
W3110690423 cites W3121789928 @default.
W3110690423 cites W3130858124 @default.
W3110690423 cites W3131578459 @default.
W3110690423 doi "https://doi.org/10.1103/physrevd.103.115031" @default.
W3110690423 hasPublicationYear "2021" @default.
W3110690423 type Work @default.
W3110690423 sameAs 3110690423 @default.
W3110690423 citedByCount "15" @default.
W3110690423 countsByYear W31106904232021 @default.
W3110690423 countsByYear W31106904232022 @default.
W3110690423 countsByYear W31106904232023 @default.
W3110690423 crossrefType "journal-article" @default.
W3110690423 hasAuthorship W3110690423A5006432839 @default.
W3110690423 hasAuthorship W3110690423A5031919806 @default.
W3110690423 hasBestOaLocation W31106904231 @default.
W3110690423 hasConcept C109214941 @default.
W3110690423 hasConcept C111309251 @default.
W3110690423 hasConcept C121332964 @default.
W3110690423 hasConcept C1276947 @default.
W3110690423 hasConcept C145148216 @default.
W3110690423 hasConcept C15359245 @default.
W3110690423 hasConcept C159249277 @default.
W3110690423 hasConcept C172790937 @default.
W3110690423 hasConcept C184779094 @default.
W3110690423 hasConcept C185544564 @default.
W3110690423 hasConcept C191486275 @default.
W3110690423 hasConcept C201941533 @default.
W3110690423 hasConcept C26148502 @default.
W3110690423 hasConcept C26405456 @default.
W3110690423 hasConcept C26495451 @default.
W3110690423 hasConcept C35048267 @default.
W3110690423 hasConcept C40937832 @default.
W3110690423 hasConcept C44870925 @default.
W3110690423 hasConcept C62520636 @default.
W3110690423 hasConcept C66157390 @default.
W3110690423 hasConcept C78470386 @default.
W3110690423 hasConceptScore W3110690423C109214941 @default.
W3110690423 hasConceptScore W3110690423C111309251 @default.
W3110690423 hasConceptScore W3110690423C121332964 @default.
W3110690423 hasConceptScore W3110690423C1276947 @default.
W3110690423 hasConceptScore W3110690423C145148216 @default.