(database cut-off date: 30.09.2016)

Citation information
The Nuclear Moments Database can be cited as follows:

Help for the Periodic Table
There are two ways to access the nuclear E/M moments data:
A. Use the form fields in the middle of the screen. You can type the mass number (A), the atomic number (Z) or both numbers of the nucleus you are interested in. In case only the mass number is chosen, all available isobars are displayed.
B. Use the periodic table directly:

If you wish to restart, click the button labeled Periodic Table on the top left side or the icon

Help for the Z-helix
This is an alternative way to look for the data. The data are organized on a helix, according to the Z of the element.

You can navigate back to the Z-helix by clicking the button at the top

Help for the Elementary Particles
All data are collected from the [Particle Data Group website]. There are Baryons, Mesons, Leptons and Gauge Particle listings. The elementary particle data compilation currently on this database was published in the CODATA 2014 paper.
To find the info:

The meson family is currently included for the sake of completeness. There is currently no known measurements of moments for mesons, therefore the corresponding tables are empty.

Help for nuclei
All compiled data are taken from INDC(NDS)-0658. Recommended quadrupole moments are from INDC(NDS)-0650 and recommended magnetic dipole moments are from INDC(NDS)-0794 and INDC(NDS)-0816.
Please address feedbacks on nuclear moments to N.J. Stone and nds.contact-point@iaea.org

General Description of the Data
For every isotope selected in the database, the following information is provided in columns:

Annotations and Abbreviations
The following have been directly adopted from earlier N.J. Stone's compilations to ensure compatibility with previously used nomenclature and avoid potential confusion.

Abbreviations of Experimental Methods
ABAtomic Beam Magnetic Resonance - Thermal Beam
AB/DAtomic Beam Magnetic Resonance (direct moment measurement)
ABLDFAtomic Beam with Laser Double Resonance Detection
ABLFSAtomic Beam with Laser Fluorescence Spectroscopy
ABLSAtomic Beam Laser Spectroscopy
b-NMRNMR of in-beam polarized nuclei with beta asymmetry detection
b-NMR/OPNMR of nuclei polarized by optical pumping with beta asymmetry detection
b-NQRNuclear Quadrupole Resonance with beta detection
B(E2)Value based on measured E2 transition probability
BBCLSBunched-Beam Colinear Laser Spectroscopy
BFNMR/ONNuclear Magnetic Resonance on Brute Force Oriented Nuclei
BFNOBrute Force Nuclear Orientation
CDPACConstant-Delay Perturbed Angular Correlation
CEADIntegral Perturbed Angular Distribution after Coulomb Excitation
CERCoulomb excitation reorientation
CERPPrecession of Coulomb Excitation Reorientation
CETDTDPAD following Coulomb Excitation
CFBLSCollinear Fast Beam Laser Spectroscopy - Accelerated Beam
CFBLS/b-NMRb-NMR Collinear Fast Beam Laser Spectroscopy: NMR with beta detection
CIANCoulomb Interaction of Aligned Nuclei
CLSResonance Cell Laser Spectroscopy
CRDTFCoincident Recoil Distance Transient Field
CRISCollinear Resonance Ionization Spectroscopy
ENDORElectron-nuclear Double Resonance
EPRElectron Paramagnetic Resonance
ESElectron Scattering
FDPACTime Differential Perturbed Angular Correlation of Fission Fragments
FortPFortschrift Physik
FP-LAPWEFG calculated by the Full-Potential Linearized-augmented-Plane-Wave
HVTFHigh-Velocity Transient Field
IAPADIntegral Attenuation of Perturbed Angular Distribution
IBSQBQuantum Beats after Surface Interaction at Grazing Incidence
IMPACPerturbed Angular Correlation after Ion Implantation
IMPADPerturbed Angular Distribution after Ion Implantation
IPACIntegral Perturbed Angular Correlation
IPADIntegral Perturbed Angular Distribution
Ka-XKaonic X-ray Hyperfine Structure
LEMSLevel Mixing Spectroscopy
LMRLevel Mixing Resonance on Oriented Nuclei
LRDRSLaser RF Double Resonance Spectroscopy
LRFSLaser Resonance Fluorescence Spectroscopy
LRIMSLaser Resonance Ionization Mass Spectroscopy
LRISLaser Resonance Ionization
LRSLaser Resonance Spectroscopy
LRSRDLaser Resonance Specroscopy with Radioactive Detection
MAMicrowave Absorption in gases
MAPONMultiple Adiabatic Passage NMR on Oriented Nuclei
MBMolecular Beam Magnetic Resonance
MCHFMulticonfigurational Hartree Foch calculated efg used to extract Q
MEMossbauer Effect
M/NMaser/Nuclear Magnetic Resonance frequency comparison
MQCCMolecular Quadrupole Coupling Constant
MSMolecular Spectroscopy
Mu-XMuonic X-ray Hyperfine Structure
not measuredThe value is an estimation
NMRNuclear Magnetic Resonance
NMR/MENuclear Magnetic Resonance detected using the Mossbauer Effect
NMR/ONNuclear Magnetic Resonance on Oriented Nuclei
NMR/ON(b)Nuclear Magnetic Resonance on Oriented Nuclei with beta detection
NMR/ON(X)Nuclear Magnetic Resonance on Oriented Nuclei with X-ray detection
NMR/ACNuclear Magnetic Resonance detected using Angular Correlation
NMR/ADNuclear Magnetic Resonance detected using Angular Distribution
NMR/OPNMR detected using Optically Pumped Ions
NO/b+Nuclear Orientation with positron emission
NO/CPGamma Circular Polarization measured from Oriented Nuclei
NO/MEMossbauer Effect on Oriented Nuclei
NO/SStatic Nuclear Orientation with gamma detection
NO/bSStatic Nuclear Orientation with beta detection
NO/DDynamic Nuclear Orientation
OOptical Spectroscopy
ODOptical Double Resonance
OGLSOptogalvanic Laser Spectroscopy
OLOptical Level Crossing
OP/b-NMROptical Pumping with NMR using beta detection
OP/RDOptical Pumping with Radiative Detection
OROCHIOptical RI-atom Observation in Condensed Helium as Ion-Catcher
PACPerturbed Angular Correlation
PhPiPion Photoproduction near threshold
Pi-XPionic X-ray Hyperfine Structure
PMRParamagnetic Resonance
PPDACPerturbed Polarization-Directional Angular Correlations
PPRProton Pick-up Reaction: Spectroscopic Factors
QQuadrupole Resonance
QI-NMR/ONQuadrupole interaction resolved NMR on oriented nuclei
QIRQuadrupole Interaction deduced from Relaxation Time
RRe-evaluated by N.J. Stone (2013StZZ) usually because of change in reference standard
RENOReorientation Nuclear Orientation
RIGVRecoil into gas or vacuum
RIV/DRecoil into Vacuum / Differential method
SSuggested by Database Admin
SOPADStroboscopic Observation of Perturbed Angular Distribution
SOP/RDADStroboscopic Observation of Perturbed Angular Distribution (Re-evaluated)
TDPACTime Dependent Perturbed Angular Correlation
TDPADTime Dependent Perturbed Angular Distribution
TDRIVTime Differential Recoil in Vacuum
TFTransient Field integral perturbed angular correlation
TF/IMPACTransient Field integral perturbed angular correlation after Ion Implantation
TFLTilted Foil hyperfine field integral perturbed angular correlation
TFLDTilted Foil Time Differential Perturbed Gamma Angular Distribution
TISTrapped Ion Spectroscopy
TLSTrapped Laser Spectroscopy
TR/OLNOTime Resolved On-Line Nuclear Orientation
XHFSX-ray Hyperfine Shift
theoryThe value is a theoretical estimation

Earlier print compilations and useful resources (not an exhaustive list)

Additional Info
The database user might find some useful papers and resources related to EM moments in this blog.


Data Compilation, Web and Database Programming: Theo J. Mertzimekis (Univ. of Athens / tmertzi@phys.uoa.gr)
Nuclear moments tables: N.J. Stone
Copyright © 2014-2016, International Atomic Energy Agency - Nuclear Data Section
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e-mail: nds.contact-point@iaea.org