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arxiv: 2010.03577 · v1 · pith:ENPKGZBT · submitted 2020-10-07 · hep-ph · hep-ex

Characterizing Dark Matter Signals with Missing Momentum Experiments

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classification hep-ph hep-ex
keywords particlesbeamenergyexperimentsmomentumtargetdarklight
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Fixed target missing-momentum experiments such as LDMX and M$^3$ are powerful probes of light dark matter and other light, weakly coupled particles beyond the Standard Model (SM). Such experiments involve $\sim$ 10 GeV beam particles whose energy and momentum are individually measured before and after passing through a suitably thin target. If new states are radiatively produced in the target, the recoiling beam particle loses a large fraction of its initial momentum, and no SM particles are observed in a downstream veto detector. We explore how such experiments can use kinematic variables and experimental parameters, such as beam energy and polarization, to measure properties of the radiated particles and discriminate between models if a signal is discovered. In particular, the transverse momentum of recoiling particles is shown to be a powerful tool to measure the masses of new radiated states, offering significantly better discriminating ability compared to the recoil energy alone. We further illustrate how variations in beam energy, polarization, and lepton flavor (i.e., electron or muon) can be used to disentangle the possible the Lorentz structure of the new interactions.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Theory Calculations for LDMX and LOHENGRIN beyond Coherent Bethe-Heitler Scattering

    hep-ph 2026-06 unverdicted novelty 6.0

    Higher-order electromagnetic and hadronic contributions to dark photon bremsstrahlung have limited impact on signal and background predictions for LDMX and LOHENGRIN except for requiring an HCAL extension in LOHENGRIN...