Feebly-interacting particles: FIPs 2020 workshop report

Agrawal, Prateek; Bauer, Martin; Beacham, J. B.; Berlin, Asher; Boyarsky, Alexey; Cebrián, S.; Cid-Vidal, Xabier; d’Enterria, D.; Roeck, A. De; Drewes, Marco; Echenard, B.; Giannotti, Maurizio; Giudice, Gian F.; Gninenko, S.; Gori, Stefania; Goudzovski, E.; Heeck, Julian; Hernández, P.; Hostert, Matheus; Irastorza, I.G.; Izmaylov, A.; Jaeckel, Joerg; Kahlhoefer, Felix; Knapen, Simon; Krnjaic, Gordan; Lanfranchi, G.; Monroe, J.; Outschoorn, V. I. Martinez; López‐Pavón, Jacobo; Pascoli, Silvia; Pospelov, Maxim; Redigolo, Diego; Ringwald, Andreas; Ruchayskiy, Oleg; Ruderman, Joshua T.; Russell, H. L.; Salfeld-Nebgen, J.; Schuster, Philip; Shaposhnikov, Mikhail; Shchutska, L.; Shelton, Jessie; Soreq, Yotam; Stadnik, Yevgeny V.; Swallow, Joel; Tobioka, Kohsaku; Tsai, Yuhsin

doi:10.1140/epjc/s10052-021-09703-7

Cited by 201 publications

(141 citation statements)

References 1,907 publications

(3,712 reference statements)

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“…While searches for such particles in the TeV region continue at the CERN Large Hadron Collider (LHC), the possibility that new particles may be relatively light ( 50 GeV), and yet have escaped detection so far because of very weak coupling to standard model (SM) particles, is receiving considerable attention, as discussed in, e.g., Refs. [1][2][3]. There are many possible so-called portals; these are neutral particles that couple weakly to the SM and also to DM particles (but being unstable are not themselves DM candidates), such as dark photons [4][5][6], heavy neutral leptons [7,8], axion-like particles [9][10][11], and scalars or dark Higgs particles [12,13].…”

Section: Introductionmentioning

confidence: 99%

FACET: A new long-lived particle detector in the very forward region of the CMS experiment

Cerci,

Lazic

et al. 2022

Preprint

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We describe a proposal to add a set of very forward detectors to CMS for the high-luminosity era of the Large Hadron Collider to search for beyond the standard model long-lived particles, such as dark photons, heavy neutral leptons, axion-like particles, and dark Higgs bosons. The proposed subsystem is called FACET for Forward-Aperture CMS ExTension, and will be sensitive to any particles that can penetrate at least 50 m of magnetized iron and decay in an 18 m long, 1 m diameter vacuum pipe. The decay products will be measured in detectors using identical technology to the planned CMS Phase-2 upgrade.

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Section: Introductionmentioning

confidence: 99%

FACET: A new long-lived particle detector in the very forward region of the CMS experiment

Cerci,

Lazic

et al. 2022

Preprint

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“…In addition, there are several extensions of the SM that predict new particles with fractional charges [5][6][7][8][9]. The fractionally charged particles are also promising candidates for dark matter [10][11][12][13][14][15]. Even charges of the SM particles can deviate from the integer multiple of 'e/3', where 'e' is the magnitude of unit electric charge.…”

Section: Introductionmentioning

confidence: 99%

Neutrino millicharge and other electromagnetic interactions with COHERENT-2021 data

Khan¹

2022

Preprint

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Observation of electrically charged neutrinos is crucial for charge dequantizaton and for revealing the nature of the neutrino. We analyze new data of the COHERENT experiment for the coherent neutrino-nucleus scattering to investigate the electric charges of neutrinos. With almost double the statistics and precision now, the statistical significance of the observed process has been enhanced to 11.6σ. We have found that the improved data also disfavor the zero electric charges of muon neutrino at 3.5σ and electron neutrinos at 3σ. As expected, we obtain robust constraints on millicharge and magnetic moment of neutrinos.

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“…These constraints can be respected for sufficiently small couplings, and, as evident from (2.7), it is possible to simultaneously keep ∆V nonnegligible if the mediator mass m A D is sufficiently light. Numerous other constraints from colliders, beam dumps, fixed targets, meson decays, stellar cooling, anomalous magnetic dipole moments, etc., also apply in different regions of parameter space of (2.5) [73][74][75][76]. We will, however, defer these considerations to a future work.…”

Section: The Minimal Case As a Toy Modelmentioning

confidence: 99%

Quasi-Sterile Neutrinos from Dark Sectors I. BSM matter effects in neutrino oscillations and the short-baseline anomalies

Alves,

Louis,

deNiverville

2022

Preprint

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Quasi-sterile neutrinos are a natural consequence of dark sectors interacting with the Standard Model (SM) sector via neutrino-and vector-portals. Essentially, quasisterile neutrinos are light dark sector fermions with two generic properties: (i) they mix with the active neutrinos of the SM, and (ii) they are charged under a vector mediator that couples feebly to SM matter. Various interesting phenomenological consequences result from this class of particles. In this article, we investigate one such consequence: new, beyond the SM matter effects that can alter in-medium neutrino oscillations. In particular, for special windows of energy and matter densities, active neutrinos can resonantly oscillate into sterile neutrinos. We take advantage of this feature to build a quasi-sterile neutrino model that can explain the MiniBooNE and LSND anomalies, while remaining compatible with observations from long-baseline reactor-and accelerator-based neutrino experiments. This model is also likely compatible with the recent results reported by the MicroBooNE collaboration (albeit we cannot precisely quantify this claim due to a lack of information in MicroBooNE's public data releases to date). Implications for solar neutrinos and ν e disappearance searches are also briefly discussed.

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Feebly-interacting particles: FIPs 2020 workshop report

Cited by 201 publications

References 1,907 publications

FACET: A new long-lived particle detector in the very forward region of the CMS experiment

FACET: A new long-lived particle detector in the very forward region of the CMS experiment

Neutrino millicharge and other electromagnetic interactions with COHERENT-2021 data

Quasi-Sterile Neutrinos from Dark Sectors I. BSM matter effects in neutrino oscillations and the short-baseline anomalies

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