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PhD and postdoc positions QCD and proton structure LHC neutrinos

Job in 1000, Amsterdam, North Holland, Netherlands
Listing for: Karlstad University
Full Time position
Listed on 2026-07-17
Job specializations:
  • Research/Development
    Research Scientist, Data Scientist, Postdoctoral Research Fellow
Salary/Wage Range or Industry Benchmark: 34138 - 45477 EUR Yearly EUR 34138.00 45477.00 YEAR
Job Description & How to Apply Below
Position: PhD and postdoc positions on QCD and proton structure with LHC neutrinos

PhD and postdoc positions on QCD and proton structure with LHC neutrinos

Nikhef is the national institute for subatomic physics in the Netherlands. At Nikhef, approximately 220 physicists and 80 technical staff work together in an open and international scientific environment. Together they perform theoretical and experimental research in the fields of particle and astroparticle physics. Nikhef is a partnership between six major Dutch universities and the NWO-I Foundation, the Institutes Organization of the Dutch Research Council (NWO).

Nikhef participates in a wide range of research collaborations, including the ALICE, ATLAS and LHCb experiments at CERN, the KM3

NeT neutrino telescope in the Mediterranean, the Virgo gravitational waves interferometer in Pisa, the Xenon-nT dark matter experiment in Gran Sasso, the Pierre Auger cosmic ray observatory in Argentina, and the eEDM research programme in Groningen. Nikhef furthermore has scientific groups on theoretical particle physics, physics data processing, and detector R&D, and has excellently equipped technical departments in mechanics, electronics, and computing.

Nikhef hosts a LHC Tier-1 data processing center and offers substantial additional computing resources for end‑user data analysis and simulation.

The group

The Nikhef Theory group in Amsterdam is currently composed of 7 staff members, 8 postdocs and 12 PhD students. The group has a strong expertise in effective field theories, higher‑order calculations in quantum chromodynamics, event generators, machine learning in particle physics, proton structure determinations, high‑energy neutrino scattering, flavour physics, beyond the standard model physics, and cosmology, among other topics. The group also has strong connections with other national and international groups in theoretical high‑energy physics, as well as frequent interactions with the experimental groups at Nikhef.

Job

summary

For more than fifteen years the intense flux of high‑energy neutrinos produced in the forward direction at the LHC went undetected, until their observation in 2023 by the FASER and SND@LHC experiments opened a new “collider neutrino” era, providing access to the highest‑energy neutrinos ever produced in a laboratory.

The ERC Advanced Grant UNICORN project (“Unlocking the Strong Interactions with Collider Neutrinos”) will build the theoretical framework needed to model the production and scattering of these neutrinos, combining state‑of‑the‑art QCD calculations, Monte Carlo simulations, and machine learning, and will apply it to the full FASER and SND@LHC Run 3 datasets while laying the groundwork for a thriving LHC neutrino program at the High‑Luminosity LHC.

The goal is to transform FASER and SND@LHC into precision microscopes of proton structure, enabling in turn precision predictions for Higgs and electroweak physics and searches for New Physics LHC and enhanced interpretations of high‑energy neutrino telescope observations.

The positions

The PhD and postdoc positions will be embedded in the Nikhef Theory group and supervised by Prof. Dr. Juan Rojo. The research program to be carried out addresses several interconnected directions: a data‑driven extraction of the LHC forward neutrino fluxes; charm production at the LHC as high‑resolution probes of small‑x QCD; neutrino and muon deep‑inelastic scattering structure functions at TeV energies and their inclusion in the NNPDF global analysis of proton structure;

and the development of state‑of‑the‑art event generators for neutrino and muon DIS with data‑driven tunes and their integration with Neural Simulation‑Based Inference techniques to extract optimally sensitive, unbinned observables from FASER data. The successful candidates will work closely with the other members of the team and join the FASER collaboration, including through working visits to CERN.

Our research community is friendly and supportive. Nikhef is committed to being an inclusive and diverse organisation. Applications from women and people belonging to minority and underrepresented groups are especially welcomed.

Offer

The successful applicants will be employed by the Department of Physics and…

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