Programme of Research in Experimental Particle Physics at the University of Warwick: 2022-2025
Lead Research Organisation:
University of Warwick
Department Name: Physics
Abstract
The scope of the proposed research lies in five distinct areas: Higgs and new phenomena searches at the ATLAS Experiment; the physics of particles containing the beauty quark at LHCb; the physics of neutrinos with neutrino oscillation and double-beta decay experiments; other routes to new physics with e.g. Darkside, NuSTORM, FCC and quantum sensors; detector R&D. It also includes Outreach and Knowledge Exchange programmes. In more detail:
o The ATLAS experiment at CERN, a large, general purpose detector operating at the LHC was designed to search for and study the Higgs boson, as well as new exotic forms of matter. Our work involves contributing to the experiment's ability to identify interesting events as well as helping to construct an upgraded detector able to work in the new environment of an upgraded LHC. We will also contribute to the detailed study of the Higgs boson by helping to optimise the collection of events in which it decays to pairs of tau leptons, heavy relatives of the electron. We will also look for other, heavier exotic new bosons.
o We aim to further our research into matter/anti-matter asymmetry (CP Violation) in the decays of Beauty mesons at the LHCb experiment. This is important, because we have shown in past experiments that the leading source of CP violation at the weak scale is consistent with the Standard Model mechanism of CP violation. However, cosmological considerations indicate that there should be other sources of CP violation in Nature, so we aim to make further sensitive tests with beauty mesons, in order to see if any evidence for additional sources of CP violation appear in such decays. We also plan to study rare decays of B mesons, which may be able to indicate the presence of new types of interactions outside the Standard Model of particle physics.
o The elucidation of the properties of neutrinos. We have built part of the T2K experiment which is now operating in Japan. Analyses of T2K data has helped to show conclusively that neutrinos transmute or `oscillate' from one type to the other. We aim to continue running this experiment, to better measure these oscillations, and to establish whether the rate of oscillation is the same for anti-neutrinos. In parallel, we are deeply involved with preparations for the next generation of oscillation experiment. These projects, DUNE and Hyper-K, are entering the construction phase and we are making various contributions in both hardware and software to help enable the experiments to be ready for data taking around 2026. We are also contributing to the SuperNEMO and LEGEND experiments, which are sensitive to the scale of the neutrino mass and will determine whether the neutrino is it's own anti-particle (i.e. whether it is a Majorana particle or not).
o We propose to continue our research across a raft of other projects with the potential to unlock new physics from different directions i.e. accelerator studies which are informing the design of next generation neutrino and muon beams; the dark matter search project Darkside; next generation energy frontier colliders (e.g. ILC and FCC); the application of quantum sensor technology to particle physics (e.g. the QTNM project applying quantum sensor technology to the measurement of neutrino mass).
o We propose to continue our research and development of position- and energy-sensitive detectors for applications in neutrino experiments and with potential spin-off applications in industry.
o We will continue to develop our outreach programme which includes activities for local schools and articles in popular science publications.
o Supported by a strong University strategy and ethos in knowledge exchange, we will continue to pursue all avenues for possible knowledge exchange.
o The ATLAS experiment at CERN, a large, general purpose detector operating at the LHC was designed to search for and study the Higgs boson, as well as new exotic forms of matter. Our work involves contributing to the experiment's ability to identify interesting events as well as helping to construct an upgraded detector able to work in the new environment of an upgraded LHC. We will also contribute to the detailed study of the Higgs boson by helping to optimise the collection of events in which it decays to pairs of tau leptons, heavy relatives of the electron. We will also look for other, heavier exotic new bosons.
o We aim to further our research into matter/anti-matter asymmetry (CP Violation) in the decays of Beauty mesons at the LHCb experiment. This is important, because we have shown in past experiments that the leading source of CP violation at the weak scale is consistent with the Standard Model mechanism of CP violation. However, cosmological considerations indicate that there should be other sources of CP violation in Nature, so we aim to make further sensitive tests with beauty mesons, in order to see if any evidence for additional sources of CP violation appear in such decays. We also plan to study rare decays of B mesons, which may be able to indicate the presence of new types of interactions outside the Standard Model of particle physics.
o The elucidation of the properties of neutrinos. We have built part of the T2K experiment which is now operating in Japan. Analyses of T2K data has helped to show conclusively that neutrinos transmute or `oscillate' from one type to the other. We aim to continue running this experiment, to better measure these oscillations, and to establish whether the rate of oscillation is the same for anti-neutrinos. In parallel, we are deeply involved with preparations for the next generation of oscillation experiment. These projects, DUNE and Hyper-K, are entering the construction phase and we are making various contributions in both hardware and software to help enable the experiments to be ready for data taking around 2026. We are also contributing to the SuperNEMO and LEGEND experiments, which are sensitive to the scale of the neutrino mass and will determine whether the neutrino is it's own anti-particle (i.e. whether it is a Majorana particle or not).
o We propose to continue our research across a raft of other projects with the potential to unlock new physics from different directions i.e. accelerator studies which are informing the design of next generation neutrino and muon beams; the dark matter search project Darkside; next generation energy frontier colliders (e.g. ILC and FCC); the application of quantum sensor technology to particle physics (e.g. the QTNM project applying quantum sensor technology to the measurement of neutrino mass).
o We propose to continue our research and development of position- and energy-sensitive detectors for applications in neutrino experiments and with potential spin-off applications in industry.
o We will continue to develop our outreach programme which includes activities for local schools and articles in popular science publications.
o Supported by a strong University strategy and ethos in knowledge exchange, we will continue to pursue all avenues for possible knowledge exchange.
Organisations
Publications
Abratenko P
(2024)
Improving neutrino energy estimation of charged-current interaction events with recurrent neural networks in MicroBooNE
in Physical Review D
Bashyal A
(2023)
High-statistics measurement of antineutrino quasielasticlike scattering at E ? ¯ 6 GeV on a hydrocarbon target
in Physical Review D
Aaij R
(2023)
Test of lepton flavor universality using B 0 ? D * - t + ? t decays with hadronic t channels
in Physical Review D
Aaij R
(2023)
Model-independent measurement of charm mixing parameters in B ¯ ? D 0 ( ? K S 0 p + p - ) µ - ? ¯ µ X decays
in Physical Review D
Aaij R
(2024)
Measurement of the D * longitudinal polarization in B 0 ? D * - t + ? t decays
in Physical Review D
Aaij R
(2025)
Measurement of D 0 - D ¯ 0 mixing and search for C P violation with D 0 ? K + p - decays
in Physical Review D
Zazueta L
(2023)
Improved constraint on the M I N E R ? A medium energy neutrino flux using ? ¯ e - ? ? ¯ e - data
in Physical Review D
Aaij R
(2024)
Search for prompt production of pentaquarks in charm hadron final states
in Physical Review D
Aaij R
(2024)
Search for the rare decay of charmed baryon ? c + into the p µ + µ - final state
in Physical Review D
Aaij R
(2024)
Search for Time-Dependent CP Violation in D^{0}?p^{+}p^{-}p^{0} Decays.
in Physical review letters
Aaij R
(2024)
Observation of Cabibbo-Suppressed Two-Body Hadronic Decays and Precision Mass Measurement of the O_{c}^{0} Baryon.
in Physical review letters
Aaij R
(2024)
Measurement of ? b 0 , ? c + , and ? Decay Parameters Using ? b 0 ? ? c + h - Decays
in Physical Review Letters
Bercellie A
(2023)
Simultaneous Measurement of Muon Neutrino ?_{µ} Charged-Current Single p^{+} Production in CH, C, H_{2}O, Fe, and Pb Targets in MINERvA.
in Physical review letters
Abratenko P
(2024)
Search for Heavy Neutral Leptons in Electron-Positron and Neutral-Pion Final States with the MicroBooNE Detector.
in Physical review letters
Aaij R
(2023)
Precision Measurement of CP Violation in the Penguin-Mediated Decay B_{s}^{0}???.
in Physical review letters
Aaij R
(2024)
Modification of ?_{c1}(3872) and ?(2S) Production in pPb Collisions at sqrt[s_{NN}]=8.16 TeV.
in Physical review letters
Aaij R
(2023)
Measurement of the Time-Integrated CP Asymmetry in D^{0}?K^{-}K^{+} Decays.
in Physical review letters
Aaij R
(2023)
Evidence for Modification of b Quark Hadronization in High-Multiplicity pp Collisions at sqrt[s]=13 TeV.
in Physical review letters
Aaij R
(2023)
Observation of New Baryons in the ?_{b}^{-}p^{+}p^{-} and ?_{b}^{0}p^{+}p^{-} Systems.
in Physical review letters
Aaij R
(2023)
Observation of a Resonant Structure near the D s + D s - Threshold in the B + ? D s + D s - K + Decay
in Physical Review Letters
Abe K
(2023)
Erratum: Search for Cosmic-Ray Boosted Sub-GeV Dark Matter Using Recoil Protons at Super-Kamiokande [Phys. Rev. Lett. 130, 031802 (2023)].
in Physical review letters
Abratenko P
(2024)
First Search for Dark-Trident Processes Using the MicroBooNE Detector.
in Physical review letters
Lees JP
(2023)
Search for Evidence of Baryogenesis and Dark Matter in B^{+}??_{D}+p Decays at BABAR.
in Physical review letters
Aaij R
(2024)
Improved Measurement of C P Violation Parameters in B s 0 ? J / ? K + K - Decays in the Vicinity of the ? ( 1020 ) Resonance
in Physical Review Letters
Ruterbories D
(2022)
Simultaneous Measurement of Proton and Lepton Kinematics in Quasielasticlike ?_{µ}-Hydrocarbon Interactions from 2 to 20 GeV.
in Physical review letters
Aaij R
(2025)
Measurement of the Branching Fraction Ratios R ( D + ) and R ( D * + ) Using Muonic t Decays
in Physical Review Letters
Aaij R
(2023)
Measurement of the Ratios of Branching Fractions R(D^{*}) and R(D^{0}).
in Physical review letters
Aaij R
(2025)
First Determination of the Spin-Parity of ? c ( 3055 ) + , 0 Baryons
in Physical Review Letters
Aaij R
(2023)
Measurement of the Branching Fractions B(B^{0}?pp[over ¯]pp[over ¯]) and B(B_{s}^{0}?pp[over ¯]pp[over ¯]).
in Physical review letters
Aaij R
(2023)
Measurement of the Prompt D^{0} Nuclear Modification Factor in p-Pb Collisions at sqrt[s_{NN}]=8.16 TeV.
in Physical review letters
Aaij R
(2024)
Observation of New Charmonium or Charmoniumlike States in B^{+}?D^{*±}D^{±}K^{+} Decays.
in Physical review letters
Abratenko P
(2024)
First Simultaneous Measurement of Differential Muon-Neutrino Charged-Current Cross Sections on Argon for Final States with and without Protons Using MicroBooNE Data.
in Physical review letters
Abe K
(2023)
Search for Cosmic-Ray Boosted Sub-GeV Dark Matter Using Recoil Protons at Super-Kamiokande.
in Physical review letters
RamÃrez M
(2023)
Neutrino-Induced Coherent p + Production in C, CH, Fe, and Pb at ? E ? ? ~ 6 GeV
in Physical Review Letters
Aaij R
(2024)
Measurement of CP Violation in B^{0}??(?l^{+}l^{-})K_{S}^{0}(?p^{+}p^{-}) Decays.
in Physical review letters
Kleykamp J
(2023)
Simultaneous Measurement of ?_{µ} Quasielasticlike Cross Sections on CH, C, H_{2}O, Fe, and Pb as a Function of Muon Kinematics at MINERvA.
in Physical review letters
Aaij R
(2025)
Observation of Exotic J/?? Resonant Structure in Diffractive Processes in Proton-Proton Collisions.
in Physical review letters
Aaij R
(2024)
Amplitude Analysis of the B^{0}?K^{*0}µ^{+}µ^{-} Decay.
in Physical review letters
Abratenko P
(2024)
First Measurement of ? Meson Production in Neutrino Interactions on Argon with MicroBooNE.
in Physical review letters
Aaij R
(2023)
Evidence of a J / ? K S 0 Structure in B 0 ? J / ? ? K S 0 Decays
in Physical Review Letters
Aaij R
(2023)
Measurement of the ?_{b}^{0}??(1520)µ^{+}µ^{-} Differential Branching Fraction.
in Physical review letters
Aaij R
(2024)
Fraction of ? c Decays in Prompt J / ? Production Measured in p Pb Collisions at s NN = 8.16 TeV
in Physical Review Letters
Abe K
(2025)
First Joint Oscillation Analysis of Super-Kamiokande Atmospheric and T2K Accelerator Neutrino Data
in Physical Review Letters
Aaij R
(2023)
Observation of New O_{c}^{0} States Decaying to the ?_{c}^{+}K^{-} Final State.
in Physical review letters
Aaij R
(2024)
Measurement of CP Violation Observables in D^{+}?K^{-}K^{+}p^{+} Decays.
in Physical review letters
Aaij R
(2024)
Enhanced Production of ? b 0 Baryons in High-Multiplicity p p Collisions at s = 13 TeV
in Physical Review Letters
Collaboration L
(2025)
Measurement of exclusive $J/\psi$ and $\psi(2S)$ production at $\sqrt{s}=13$ TeV
in SciPost Physics
Harada M
(2023)
Search for Astrophysical Electron Antineutrinos in Super-Kamiokande with 0.01% Gadolinium-loaded Water
in The Astrophysical Journal Letters
Aaij R
(2025)
Long-lived particle reconstruction downstream of the LHCb magnet
in The European Physical Journal C
Aaron E
(2023)
Measurement of isotopic separation of argon with the prototype of the cryogenic distillation plant Aria for dark matter searches
in The European Physical Journal C
| Description | Talk at IOP Public Lecture Programme at University of Keele 19/12/24 |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | National |
| Primary Audience | Public/other audiences |
| Results and Impact | A talk for a general audience to introduce the physics of neutrinos, the importance of it to science and some of the experiments active in the area. |
| Year(s) Of Engagement Activity | 2024 |
| URL | https://www.iop.org/events/neutrinos-strangest-particles-universe |