2025: Figures from 2025 edition of RPP

These figures are licensed under the CC BY 4.0 license. Please give credit to the PDG citation.

S. Navas et al. (Particle Data Group), Phys. Rev. D 110, 030001 (2024) and 2025 update

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CONTENT LIST

Introduction

Constants, Units, Atomic and Nuclear Properties

Standard Model and Related Topics

Astrophysics and Cosmology

Experimental Methods and Colliders

Mathematical Tools

Gauge Bosons

Leptons

Quarks

Mesons

Baryons

Searches

Introduction Figures:

History Plots Fig. 1

Constants, Units, Atomic and Nuclear Properties Figures:

Electromagnetic relations Fig. 7.1

Standard Model and Related Topics Figures:

Quantum chromodynamics Fig. 9.1T Fig. 9.1B Fig. 9.2 Fig. 9.3 Fig. 9.4

Electroweak model and constraints on new physics Fig. 10.1 Fig. 10.2 Fig. 10.3 Fig. 10.4 Fig. 10.5 Fig. 10.6

Higgs boson physics, Status of Fig. 11.1L Fig. 11.1R Fig. 11.2 Fig. 11.3L Fig. 11.3R Fig. 11.4T Fig. 11.4B Fig. 11.5 Fig. 11.6 Fig. 11.7L Fig. 11.7R Fig. 11.8 Fig. 11.9L Fig. 11.9R Fig. 11.10 Fig. 11.11L Fig. 11.11R Fig. 11.12 Fig. 11.13L Fig. 11.13R Fig. 11.14 Fig. 11.15 Fig. 11.16 Fig. 11.17L Fig. 11.17R Fig. 11.18TL Fig. 11.18TR Fig. 11.18BL Fig. 11.18BR Fig. 11.19 Fig. 11.20L Fig. 11.20R

CKM quark-mixing matrix Fig. 12.1 Fig. 12.2

CP violation in the quark sector Fig. 13.1 Fig. 13.2 Fig. 13.3

Neutrino mass, mixing, and oscillations Fig. 14.1 Fig. 14.2 Fig. 14.3 Fig. 14.4 Fig. 14.5TL Fig. 14.5TC Fig. 14.5TR Fig. 14.5BL Fig. 14.5BC Fig. 14.6L Fig. 14.6R Fig. 14.7 Fig. 14.8L Fig. 14.8C Fig. 14.8R Fig. 14.9 Fig. 14.10L Fig. 14.10R Fig. 14.11 Fig. 14.12

Quark model Fig. 15.1 Fig. 15.2 Fig. 15.3 Fig. 15.4 Fig. 15.5 Fig. 15.6 Fig. 15.7 Fig. 15.8 Fig. 15.9 Fig. 15.10 Fig. 15.11 Fig. 15.12 Fig. 15.13 Fig. 15.14 Fig. 15.15

Lattice quantum chromodynamics Fig. 17.1 Fig. 17.2 Fig. 17.3L Fig. 17.3R Fig. 17.4 Fig. 17.5

Structure functions Fig. 18.1 Fig. 18.2 Fig. 18.3 Fig. 18.4T Fig. 18.4B Fig. 18.5 Fig. 18.6 Fig. 18.7 Fig. 18.8 Fig. 18.9L Fig. 18.9R Fig. 18.10 Fig. 18.11 Fig. 18.12 Fig. 18.13 Fig. 18.14 Fig. 18.15 Fig. 18.16 Fig. 18.17 Fig. 18.18

Fragmentation functions in e+ e-, ep, and pp collisions Fig. 19.1 Fig. 19.2a Fig. 19.2b Fig. 19.3a Fig. 19.3b Fig. 19.4 Fig. 19.5 Fig. 19.6 Fig. 19.7 Fig. 19.8 Fig. 19.9a Fig. 19.9b Fig. 19.10 Fig. 19.11T Fig. 19.11B Fig. 19.12a Fig. 19.12b

High energy soft QCD and diffraction Fig. 20.1 Fig. 20.2 Fig. 20.3 Fig. 20.4 Fig. 20.5 Fig. 20.6L Fig. 20.6R Fig. 20.7 Fig. 20.8 Fig. 20.9 Fig. 20.10L Fig. 20.10R Fig. 20.11L Fig. 20.11R Fig. 20.12L Fig. 20.12R Fig. 20.13L Fig. 20.13R Fig. 20.14 Fig. 20.15L Fig. 20.15R Fig. 20.16L Fig. 20.16R Fig. 20.17L Fig. 20.17R Fig. 20.18

Tests of conservation laws Fig. 1 Fig. 2 Fig. 3L Fig. 3R Fig. 4 Fig. 5

Astrophysics and Cosmology Figures:

Big-bang cosmology Fig. 22.1 Fig. 22.2 Fig. 22.3 Fig. 22.4 Fig. 22.5

Inflation Fig. 23.1 Fig. 23.2 Fig. 23.3 Fig. 23.4 Fig. 23.5

Big-bang nucleosynthesis Fig. 24.1

Neutrinos in cosmology Fig. 26.1L Fig. 26.1R Fig. 26.2L Fig. 26.2R

Dark Matter Fig. 27.1 Fig. 27.2L Fig. 27.2R Fig. 27.3

Dark Energy Fig. 28.1 Fig. 28.2 Fig. 28.3 Fig. 28.4

Cosmic microwave background Fig. 29.1 Fig. 29.2 Fig. 29.3 Fig. 29.4 Fig. 29.5 Fig. 29.6

Cosmic rays Fig. 30.1 Fig. 30.2 Fig. 30.3 Fig. 30.4 Fig. 30.5 Fig. 30.6L Fig. 30.6R Fig. 30.7 Fig. 30.8 Fig. 30.9 Fig. 30.10 Fig. 30.11 Fig. 30.12L Fig. 30.12C Fig. 30.12R Fig. 30.13L Fig. 30.13R Fig. 30.14 Fig. 30.15 Fig. 30.16 Fig. 30.17 Fig. 30.18

Experimental Methods and Colliders Figures:

Passage of particles through matter Fig. 34.1 Fig. 34.2 Fig. 34.3 Fig. 34.4 Fig. 34.5 Fig. 34.6 Fig. 34.7 Fig. 34.8 Fig. 34.9 Fig. 34.10 Fig. 34.11 Fig. 34.12 Fig. 34.13 Fig. 34.14 Fig. 34.15 Fig. 34.16 Fig. 34.17 Fig. 34.18 Fig. 34.19 Fig. 34.20 Fig. 34.21 Fig. 34.22 Fig. 34.23 Fig. 34.24 Fig. 34.25 Fig. 34.26 Fig. 34.27

Particle detectors at accelerators Fig. 35.1 Fig. 35.2 Fig. 35.3 Fig. 35.4 Fig. 35.5 Fig. 35.6 Fig. 35.7 Fig. 35.8 Fig. 35.9 Fig. 35.10 Fig. 35.11 Fig. 35.12 Fig. 35.13 Fig. 35.14 Fig. 35.15 Fig. 35.16 Fig. 35.17L Fig. 35.17R Fig. 35.18 Fig. 35.19 Fig. 35.20 Fig. 35.21 Fig. 35.22L Fig. 35.22R Fig. 35.23 Fig. 35.24 Fig. 35.25 Fig. 35.26 Fig. 35.27L Fig. 35.27R Fig. 35.28 Fig. 35.29 Fig. 35.30 Fig. 35.31 Fig. 35.32 Fig. 35.33 Fig. 35.34 Fig. 35.35L Fig. 35.35R Fig. 35.36L Fig. 35.36R Fig. 35.37 Fig. 35.38 Fig. 35.39 Fig. 35.40 Fig. 35.41

Particle detectors for non-accelerator physics Fig. 36.1 Fig. 36.2 Fig. 36.3L Fig. 36.3R Fig. 36.4 Fig. 36.5 Fig. 36.6 Fig. 36.7L Fig. 36.7R Fig. 36.8 Fig. 36.9 Fig. 36.10L Fig. 36.10R Fig. 36.11

Radioactivity and radiation protection Fig. 37.1 Fig. 37.2 Fig. 37.3 Fig. 37.4 Fig. 37.5 Fig. 37.6

Mathematical Tools Figures:

Statistics Fig. 40.1 Fig. 40.2 Fig. 40.3 Fig. 40.4

Machine Learning Fig. 41.1L Fig. 41.1R Fig. 41.2 Fig. 41.3TL Fig. 41.3BL Fig. 41.3TR Fig. 41.3BR Fig. 41.4L Fig. 41.4C Fig. 41.4R Fig. 41.5 Fig. 41.6 Fig. 41.7 Fig. 41.8 Fig. 41.9 Fig. 41.10 Fig. 41.11 Fig. 41.12 Fig. 41.13 Fig. 41.14 Fig. 41.15 Fig. 41.16 Fig. 41.17TL Fig. 41.17TR Fig. 41.17B

Monte Carlo techniques Fig. 42.1 Fig. 42.2

Monte Carlo event generators Eq. CR Fig. 43.1 Fig. 43.2 Fig. 43.3

Clebsch-Gordan coefficints, spherical harmonics, and d functions Fig. 46.1

Kinematics Fig. 49.1 Fig. 49.2 Fig. 49.3 Fig. 49.4 Fig. 49.5 Fig. 49.6 Fig. 49.7

Resonances Fig. 50.1 Fig. 50.2 Fig. 50.3 Fig. 50.4 Fig. 50.5 Fig. 50.6

Neutrino cross section measurements Fig. 52.1

Plots of cross sections and related quantities Fig. 53.1 Fig. 53.2

Gauge Bosons Figures:

Mass and width of the W boson Fig. 54.1 Fig. 54.2

Leptons Figures:

Muon anomalous magnetic moment Fig. 56.1 Fig. 56.2L Fig. 56.2CL Fig. 56.2CR Fig. 56.2R Fig. 56.3 Fig. 56.4

tau branching fractions Fig. 58.1 Fig. 58.2

Quarks Figures:

Quark masses Fig. 60.1 Fig. 60.2 Fig. 60.3

Top quark Fig. 61.1 Fig. 61.2 Fig. 61.3 Fig. 61.4 Fig. 61.5 Fig. 61.6 Fig. 61.7 Fig. 61.8 Fig. 61.9 Fig. 61.10 Fig. 61.11 Fig. 61.12 Fig. 61.13 Fig. 61.14 Fig. 61.15 Fig. 61.16 Fig. 61.17 Fig. 61.18

Mesons Figures:

Form factors for semileptonic kaon, radiative pion and kaon decays Fig. 62.1

Spectroscopy of light meson resonances Fig. 63.1 Fig. 63.2 Fig. 63.3

Scalar mesons below 1 GeV Fig. 64.1 Fig. 64.2 Fig. 64.3 Fig. 64.4

Charged kaon mass Fig. 1

Rare kaon decays Fig. 65.1 Fig. 65.2 Fig. 65.3

CPT invariance tests in neutral kaon decay Fig. 66.1

CP-violation in KL decays Fig. 68.1 Fig. 68.2 Fig. 68.3

D0--Dbar0 mixing Fig. 70.1L Fig. 70.1R

Leptonic decays of charged pseudoscalar mesons Fig. 71.1

Polarization is B decays Fig. 73.1

B0--Bbar0 mixing Fig. 74.1L Fig. 74.1R Fig. 74.2 Fig. 74.3 Fig. 74.4

Semileptonic b-hadron decays and determination of V_cb and V_ub Fig. 75.1 Fig. 75.2

Determination of CKM angles from B hadrons Fig. 76.1 Fig. 76.2 Fig. 76.3 Fig. 76.4

Spectroscopy of mesons containing two heavy quarks Fig. 77.1 Fig. 77.2 Fig. 77.3 Fig. 77.4 Fig. 77.5 Fig. 77.6 Fig. 77.7

The charmonium system Fig. 1

The bottomonium system Fig. 1

Baryons Figures:

N and Delta resonances Fig. 80.1L Fig. 80.1R Fig. 80.2T Fig. 80.2M Fig. 80.2B Fig. 80.3T Fig. 80.3M Fig. 80.3B

Lambda and Sigma resonances Fig. 81.1

Pentaquarks Fig. 83.1 Fig. 83.2 Fig. 83.3

Hypothetical Particles and Concepts Figures:

W'-boson searches Fig. 85.1L Fig. 85.1R Fig. 85.2L Fig. 85.2R

Z'-boson searches Fig. 86.1L Fig. 86.1R Fig. 86.2

Supersymmetry part I (theory) Fig. 87.1L Fig. 87.1R

Supersymmetry part II (experiment) Fig. 88.1 Fig. 88.2 Fig. 88.3L Fig. 88.3R Fig. 88.4L Fig. 88.4R Fig. 88.5L Fig. 88.5R Fig. 88.6 Fig. 88.7 Fig. 88.8L Fig. 88.8R Fig. 88.9 Fig. 88.10L Fig. 88.10R Fig. 88.11L Fig. 88.11R Fig. 88.12 Fig. 88.13L Fig. 88.13R Fig. 88.14

Axions and other similar particles Fig. 89.1 Fig. 89.2 Fig. 89.3 Fig. 89.4 Fig. 89.5

Quark and lepton compositeness, searches for Fig. 90.1 Fig. 90.2 Fig. 90.3 Fig. 90.4L Fig. 90.4R

Dynamical electroweak symmetry breaking: Implications of the H⁰ Fig. 91.1L Fig. 91.1R Fig. 91.2L Fig. 91.2R Fig. 91.3

Grand Unified Theories Fig. 92.1L Fig. 92.1R

Magnetic monopoles Fig. 94.1L Fig. 94.1R Fig. 94.2