Preprint
Sensitivity of nEXO to $^{136}$Xe Charged-Current Interactions: Background-free Searches for Solar Neutrinos and Fermionic Dark Matter
27 Jun 2025
Abstract
We study the sensitivity of nEXO to solar neutrino charged-current interactions, $ν_e + ^{136}$Xe$\rightarrow ^{136}$Cs$^* + e^-$, as well as analogous interactions predicted by models of fermionic dark matter. Due to the recently observed low-lying isomeric states of $^{136}$Cs, these interactions will create a time-delayed coincident signal observable in the scintillation channel. Here we develop a detailed Monte Carlo of scintillation emission, propagation, and detection in the nEXO detector to model these signals under different assumptions about the timing resolution of the photosensor readout. We show this correlated signal can be used to achieve background discrimination on the order of $10^{-9}$, enabling nEXO to make background-free measurements of solar neutrinos above the reaction threshold of 0.668 MeV. We project that nEXO could measure the flux of CNO solar neutrinos with a statistical uncertainty of 25%, thus contributing a novel and competitive measurement towards addressing the solar metallicity problem. Additionally, nEXO could measure the mean energy of the $^7$Be neutrinos with a precision of $σ\leq 1.5$ keV and could determine the survival probability of $^{7}$Be and $pep$ solar $ν_e$ with precision comparable to state-of-the-art. These quantities are sensitive to the Sun's core temperature and to non-standard neutrino interactions, respectively. Furthermore, the strong background suppression would allow nEXO to search for for charged-current interactions of fermionic dark matter in the mass range $m_χ$ = $0.668$-$7$ MeV with a sensitivity up to three orders of magnitude better than current limits.
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Details
- Title
- Sensitivity of nEXO to $^{136}$Xe Charged-Current Interactions: Background-free Searches for Solar Neutrinos and Fermionic Dark Matter
- Creators
- G RichardsonB. G LenardoD GallacherR SaldanhaP AcharyaS. Al KharusiA AmyE AngelicoA AnkerI. J ArnquistA AtencioJ BaneV BelovE. P BernardT BhattaA BolotnikovJ BreslinP. A BreurJ. P BrodskyS BronE BrownT BrunnerB BurnellE CadenG. F CaoL. Q CaoD CesmeciogluD ChernyakM ChiuR CollisterT DanielsL DarrochR DeVoeM. L di VacriM. J DolinskiB EckertM ElbeltagiA EmaraN FatemighomiW FairbankB. T FoustN GalliceG GiacominiW GillisA GorhamR GorneaK GracequistG GrattaC. A HardyS. C HedgesM HeffnerE HeinJ. D HoltA IversonP KachruA KarelinD KeblbeckI KotovA KuchenkovK. S KumarA LarsonM. B LatifS LavoieK. G LeachA LennarzD. S LeonardK. K. H LeungH LewisG LiX LiZ LiC LicciardiR LindsayR MacLellanS MajidiC MalbrunotM MarquisJ MasbouM Medina-PeregrinaS MngonyamaB MongD. C MooreX. E NgwadlaK NiA NolanS. C NowickiJ. C. Nzobadila OndzeA OdianJ. L OrrellG. S OrtegaL PaganiH. Peltz SmalleyA. Peña PerezA PiepkeA PocarV RadekaR RaiH RasiwalaD RayS ResciaF RetièreV RiotN RoccoR RossP. C RowsonS SangiorgioS SekulaT ShettyL SiJ SoderstromF SpadoniV StekhanovX. L SunS ThibadoT TotevS TriambakR. H. M TsangO. A TyukaT. Vallivilayil JohnE van BruggenM VidalS VielJ VuilleumierM WalentH WangQ. D WangM. P WattsW WeiM WehrfritzL. J WenU WichoskiS WildeM WorcesterX. M WuH XuH. B YangL YangO Zeldovich
- Resource Type
- Preprint
- Language
- English
- Academic Unit
- Physics
- Other Identifier
- 991022061642204721