Enhancing sensitivity to leptonic CP violation using complementarity among DUNE, T2HK, and T2HKK

IF 4.2 2区 物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS
Sanjib Kumar Agarwalla, Sudipta Das, Alessio Giarnetti, Davide Meloni, Masoom Singh
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引用次数: 6

Abstract

After the landmark discovery of non-zero \(\theta _{13}\) by the modern reactor experiments, unprecedented precision on neutrino mass-mixing parameters has been achieved over the past decade. This has set the stage for the discovery of leptonic CP violation (LCPV) at high confidence level in the next-generation long-baseline neutrino oscillation experiments. In this work, we explore in detail the possible complementarity among the on-axis DUNE and off-axis T2HK experiments to enhance the sensitivity to LCPV suppressing the \(\theta _{23}-\delta _{\textrm{CP}}\) degeneracy. We find that none of these experiments individually can achieve the milestone of 3\(\sigma \) LCPV for at least 75% choices of \(\delta _{\textrm{CP}}\) in its entire range of \([-180^{\circ }, 180^{\circ }]\), with their nominal exposures and systematic uncertainties. However, their combination can attain the same for all values of \(\theta _{23}\) with only half of their nominal exposures. We observe that the proposed T2HKK setup in combination with DUNE can further increase the CP coverage to more than 80% with only half of their nominal exposures. We study in detail how the coverage in \(\delta _{\textrm{CP}}\) for \(\ge \) 3\(\sigma \) LCPV depends on the choice of \(\theta _{23}\), exposure, optimal runtime in neutrino and antineutrino modes, and systematic uncertainties in these experiments in isolation and combination. We find that with an improved systematic uncertainty of 2.7% in appearance mode, the standalone T2HK setup can provide a CP coverage of around 75% for all values of \(\theta _{23}\). We also discuss the pivotal role of intrinsic, extrinsic, and total CP asymmetries in the appearance channel and extrinsic CP asymmetries in the disappearance channel while analyzing our results.

利用DUNE、T2HK和T2HKK之间的互补增强对轻子CP违逆的敏感性
在现代反应堆实验具有里程碑意义的发现非零\(\theta _{13}\)之后,在过去的十年中,中微子质量混合参数的精度达到了前所未有的水平。这为在下一代长基线中微子振荡实验中以高置信度发现轻子CP破坏(LCPV)奠定了基础。在这项工作中,我们详细探讨了在轴上DUNE和离轴T2HK实验之间可能的互补,以提高LCPV抑制\(\theta _{23}-\delta _{\textrm{CP}}\)简并的灵敏度。我们发现,这些实验中没有一个单独可以达到至少75的3 \(\sigma \) LCPV的里程碑% choices of \(\delta _{\textrm{CP}}\) in its entire range of \([-180^{\circ }, 180^{\circ }]\), with their nominal exposures and systematic uncertainties. However, their combination can attain the same for all values of \(\theta _{23}\) with only half of their nominal exposures. We observe that the proposed T2HKK setup in combination with DUNE can further increase the CP coverage to more than 80% with only half of their nominal exposures. We study in detail how the coverage in \(\delta _{\textrm{CP}}\) for \(\ge \) 3\(\sigma \) LCPV depends on the choice of \(\theta _{23}\), exposure, optimal runtime in neutrino and antineutrino modes, and systematic uncertainties in these experiments in isolation and combination. We find that with an improved systematic uncertainty of 2.7% in appearance mode, the standalone T2HK setup can provide a CP coverage of around 75% for all values of \(\theta _{23}\). We also discuss the pivotal role of intrinsic, extrinsic, and total CP asymmetries in the appearance channel and extrinsic CP asymmetries in the disappearance channel while analyzing our results.
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来源期刊
The European Physical Journal C
The European Physical Journal C 物理-物理:粒子与场物理
CiteScore
8.10
自引率
15.90%
发文量
1008
审稿时长
2-4 weeks
期刊介绍: Experimental Physics I: Accelerator Based High-Energy Physics Hadron and lepton collider physics Lepton-nucleon scattering High-energy nuclear reactions Standard model precision tests Search for new physics beyond the standard model Heavy flavour physics Neutrino properties Particle detector developments Computational methods and analysis tools Experimental Physics II: Astroparticle Physics Dark matter searches High-energy cosmic rays Double beta decay Long baseline neutrino experiments Neutrino astronomy Axions and other weakly interacting light particles Gravitational waves and observational cosmology Particle detector developments Computational methods and analysis tools Theoretical Physics I: Phenomenology of the Standard Model and Beyond Electroweak interactions Quantum chromo dynamics Heavy quark physics and quark flavour mixing Neutrino physics Phenomenology of astro- and cosmoparticle physics Meson spectroscopy and non-perturbative QCD Low-energy effective field theories Lattice field theory High temperature QCD and heavy ion physics Phenomenology of supersymmetric extensions of the SM Phenomenology of non-supersymmetric extensions of the SM Model building and alternative models of electroweak symmetry breaking Flavour physics beyond the SM Computational algorithms and tools...etc.
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