Dr Anežka Klustova - Nuclear Dependence in Antineutrino Scattering at MINERvA, from A to Z (C to Pb)

Wednesday 25 Mar 2026, 12:00 → 15:00 Europe/London

610 (G.O. Jones Bulding)

https://cern.zoom.us/j/68995045975?pwd=fdpw3jZ4ZPU61gbaTtDASbS03qKbf4.1

 

About the speaker: 

Dr Anežka Klustová is a Research Associate in High Energy Physics at Imperial College London. Her work explores neutrino–nucleus interactions and their implications for oscillation measurements. She received her PhD from Imperial College London in 2024, where she studied antineutrino interactions and their nuclear dependence using the MINERvA experiment, and worked on R&D and simulation of a high-pressure gaseous argon prototype for the DUNE Near Detector at Fermilab. Anežka currently works on the T2K experiment, focusing on the upgraded near detector ND280, where she is responsible for detector software integration and timing calibration, and works towards a better understanding of neutrino–nucleus interactions with two pions in the final state

13:30 → 14:00 Biscuits/Coffee/Socialization

14:00 → 15:00 Nuclear Dependence in Antineutrino Scattering at MINERvA, from A to Z (C to Pb)

Understanding how neutrinos and antineutrinos interact with nuclei in the few-GeV energy range relevant for accelerator neutrino experiments is essential for precise measurements of neutrino oscillations. Nuclear effects can change which particles emerge from an interaction and with what energies, leading to biases in reconstructed neutrino energies if not modelled correctly.

MINERvA is a high-statistics cross-section experiment designed to study these effects using multiple nuclear targets. I will present MINERvA's first inclusive charged-current antineutrino cross section measurements on carbon, hydrocarbon, iron, and lead, probing all interaction modes without selecting specific final states. I report both absolute cross sections and their ratios to hydrocarbon, as a function of the outgoing antimuon's transverse momentum. These measurements use the full MINERvA antineutrino dataset, corresponding to an average antineutrino energy of about 6 GeV, with typical uncertainties of 5–10% for the cross sections and 2–5% for the ratios.

The results reveal clear discrepancies with current neutrino interaction models, most pronounced at low transverse momentum but extending across the full measured range, indicating missing or mis-modelled nuclear effects, particularly for heavier nuclei. Because the energy and target ranges overlap with those of DUNE and Hyper-Kamiokande, these measurements provide important benchmarks and constraints on neutrino interaction models and nuclear effects for future oscillation analyses.

Convener: Dr Anežka Klustova (Imperial College)

2026-03-25-QMUL_InclusiveAntinuVsA_MINERvA_Klustova.pdf