Progress in Particle and Nuclear Physics

Papers
(The median citation count of Progress in Particle and Nuclear Physics is 12. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-11-01 to 2024-11-01.)
ArticleCitations
Quantum gravity phenomenology at the dawn of the multi-messenger era—A review199
Neutron stars and the nuclear equation of state125
Dark matter and the early Universe: A review116
JUNO physics and detector111
Insights into the emergence of mass from studies of pion and kaon structure104
Diquark correlations in hadron physics: Origin, impact and evidence97
Parton distributions and lattice-QCD calculations: Toward 3D structure97
Quenching of single-particle strength from direct reactions with stable and rare-isotope beams77
Transport model comparison studies of intermediate-energy heavy-ion collisions73
Photonuclear reactions—From basic research to applications73
An experimental view on shape coexistence in nuclei62
On the physics potential to study the gluon content of proton and deuteron at NICA SPD59
Heavy-ion storage rings and their use in precision experiments with highly charged ions58
Laser spectroscopy for the study of exotic nuclei51
Cosmological phase transitions: From perturbative particle physics to gravitational waves51
Prospects for quarkonium studies at the high-luminosity LHC50
Theory of nuclear fission49
The neutron-rich edge of the nuclear landscape: Experiment and theory.48
The Higgs portal to cosmology48
Heavy quarks and jets as probes of the QGP46
Studying the QGP with Jets at the LHC and RHIC45
Flavour anomalies in heavy quark decays45
Nuclear fragments in projectile fragmentation reactions43
Masses of exotic nuclei39
Quarkonium in quark–gluon plasma: Open quantum system approaches re-examined39
Finite-density lattice QCD and sign problem: Current status and open problems39
Promises and challenges of high-energy vortex states collisions38
Towards grounding nuclear physics in QCD38
Status and perspectives of neutrino physics38
Foundations and applications of quantum kinetic theory38
QCD and the strange baryon spectrum36
Physics with CEBAF at 12 GeV and future opportunities35
Precision studies of QCD in the low energy domain of the EIC34
Dense nuclear matter equation of state from heavy-ion collisions34
Shedding light on nuclear aspects of neutrinoless double beta decay by heavy-ion double charge exchange reactions34
Recent progress in laser spectroscopy of the actinides34
Heavy baryons in compact stars32
Modelling relativistic heavy-ion collisions with dynamical transport approaches31
Coupled-channels calculations for nuclear reactions: From exotic nuclei to superheavy elements30
Beyond-mean-field approaches for nuclear neutrinoless double beta decay in the standard mechanism29
Experimental studies of the competition between fusion and quasifission in the formation of heavy and superheavy nuclei29
Chiral effects in astrophysics and cosmology29
Heavy-quark diffusion in the quark–gluon plasma28
Phase Transitions in Particle Physics27
What comes after the Standard Model?24
Electric monopole transitions in nuclei23
Novel approaches in hadron spectroscopy23
Search for the QCD critical point in high energy nuclear collisions22
Light Baryon Spectroscopy22
Exploring QCD matter in extreme conditions with Machine Learning21
Cosmic nucleosynthesis: A multi-messenger challenge21
Precision physics with inclusive QCD processes20
Strongly coupled theories beyond the Standard Model20
CUORE opens the door to tonne-scale cryogenics experiments19
Tetraquarks in large-Nc19
The proton radius (puzzle?) and its relatives19
On the origin of matter in the Universe18
Gamma spectroscopy with AGATA in its first phases: New insights in nuclear excitations along the nuclear chart18
Holographic approach to compact stars and their binary mergers17
Neutrinos and their interactions with matter17
Dilepton radiation from strongly interacting systems17
Hot QCD phase diagram from holographic Einstein–Maxwell–Dilaton models17
Primordial black hole constraints with Hawking radiation—A review16
What can we learn about light-meson interactions at electron–positron colliders?16
Emerging technologies for cancer therapy using accelerated particles15
QCD running couplings and effective charges14
Solar neutrino physics14
Color screening in quantum chromodynamics14
Quantum causality and the arrows of time and thermodynamics13
Theoretical studies of Pygmy Resonances13
Strong-field physics in QED and QCD: From fundamentals to applications13
Quantum phase transitions in algebraic and collective models of nuclear structure13
Binary stars in the new millennium13
Two-proton emission and related phenomena12
Photon–photon physics at the LHC and laser beam experiments, present and future12
The Milky Way, coming into focus: Precision astrometry probes its evolution and its dark matter12
Stochastic gravitational wave background: Methods and implications12
Modern meson spectroscopy: The fundamental role of unitarity12
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