Jag Tuli Vienna Nov 10-11, 2008
NNDC Databases and Services
Jagdish Tuli*National Nuclear Data Center
Brookhaven National Laboratory
*Email: [email protected]
Brookhaven Science Associates
Jag Tuli Vienna Nov 10-11, 2008
USNDP Web & Database Services
Jag Tuli Vienna Nov 10-11, 2008
Some NNDC Databases and Services
• ENSDF
• XUNDL
• NSR
• QCalc (a useful tool)
• NuDat
Jag Tuli Vienna Nov 10-11, 2008
Nuclear Structure Evaluation
Research Groups
Publications
Journal Articles
Proceedings
Reports
Private Communications
Thesis
NSR
Nuclear Science References
Indexing and key-wording
XUNDL
Raw data
ENSDF
Evaluated Nuclear Structure Data File
Recommended Level Energies, J half-lives, decay modes .
Gamma energy, intensity, multipolarity, mixing ratio, CC, etc.
Education
Applications Nuclear Medicine Space Radiation
Other Libraries
Modeling MNCP GEANT
Other Publications
Jag Tuli Vienna Nov 10-11, 2008
Contents: Evaluated nuclear structure and decay data for all known (>3000 ) nuclei, organized into over 294 mass chains
ENSDF
ENSDF - www.nndc.bnl.gov/ensdf
Decay data-
++
-netc.
Reaction data(HI,xn)
(p,p')(n,), (n,xn)Coulomb Exc.(,'), (,xn)
(d,p), etc.
Adopted databest values
Levels:E, J, T1/2, , Q, configurations
Gammas:E, BR, M, , ICC
ENSDF
Jag Tuli Vienna Nov 10-11, 2008
Level Properties
• Spin-parity• Half-life • Angular momentum transfer• Spectroscopic factor• Decay branching• Static moments• Shell-model or single-particle configuration• Experiments in which level is seen
Jag Tuli Vienna Nov 10-11, 2008
Radiation Properties
• Placement in level scheme
• Energy
• Intensity –relative and absolute
• Multipolarity and mixing ratios
• Total internal conversion coefficients (theory)
• Logft values/ hindrance factors
• Reduced transition probability in W.u.
Jag Tuli Vienna Nov 10-11, 2008
ENSDF
Special (horizontal) evaluations that are needed by the nuclear structure community, e.g., logft values, α- and p-decay properties, SD and magnetic rotation bands, nuclear isomers, properties of nuclei far from the line of stability, heavy and super-heavy nuclei, etc.
Evaluation of decay data for nuclides that are important to various applications, e.g., in reactor calculations, homeland security, medicine, detector calibrations, nuclear waste, etc.
Jag Tuli Vienna Nov 10-11, 2008
ENSDF: Major Data Sources and Derivatives
ENSDF
Atomic Masses
(Wapstra & Audi)
Nuclear Science References (NSR)
MIRD
Contributing Databases:
Derivative Databases:Derivative Publications:
RADWARE
MC Codes MCNPX GEANT
NUBASE RIPL
NuDat2IEORTEC & CANBERRA
JANIS …
Jag Tuli Vienna Nov 10-11, 2008
NSR Nuclear Science Referenceswww.nndc.bnl.gov/nsr
NSR (Nuclear Science References) is a bibliographic database containing nearly 200,000 nuclear science articles, indexed according to content. About 4,000 are added each year covering 80 journals as well as conference proceedings, laboratory reports, thesis and private communications. Each article included in NSR is read and assigned a number of variables that succinctly described its content. These variables, also known as keywords, are then incorporated in a database.
One unique feature of NSR is the ability to selectively retrieve articles out of a vast number, satisfying a particular set of conditions. Articles can be retrieved according to: first author, author, nuclide, reaction, target, measured quantity, publication year, type of publication (primary or secondary), journal, topics, etc.
NSR management resides at the NNDC, Manojeet Bhattacharya, [email protected]. Contributions mainly from the NNDC and IAEA-NDS. All programming work done by Dave Winchell, formerly at the NNDC.
Jag Tuli Vienna Nov 10-11, 2008
Some articles contain experimental information, which can be stored in the XUNDL database (eXperimental Unevaluated Nuclear Data List). The data is stored in the ENSDF format.
NSR KeywordsThey briefly describe the article’s content. They follow a firm set of guidelines and they strongly increase NSR search abilities.
NSR Key NumbersThese are 9-character long strings. The first four identify the publication year, the following two are usually the first two letters of the first author’s last name, for instance, SM for Smith. If the last two characters are numeric, the article corresponds to a primary entry. If they are not, it is a secondary entry. NSR key numbers are assigned by the NSR database manager and are unique to each article.
The DOI, or Data Object Identifier, contains the link to the article. Typically, the abstract and references can be viewed for free. The whole article, in PDF format, can be accessed if you have a paid subscription to the journal.
Jag Tuli Vienna Nov 10-11, 2008
The “Measured” fields are of enormous help to perform ENSDF evaluations. For instance:
o Selecting G-SPECTRA will allow to search for articles reporting measured gamma ray spectra, a field that has been dominant in nuclear structure research in the last 30 years.o The most common decay modes are Electron Capture (EC), Positron Emission (B+), Beta minus (B-), Isomeric Transition (IT), Alpha (A), Spontaneous Fission (SF) and Proton emission (P). By selecting on A-DECAY, we will retrieve articles dealing with alpha-decay, etc.o The study of nuclear levels at high values of angular momentum is covered by selecting HIGH-SPN.o Articles dealing with shape parameters can be retrieved by selecting DEFORMATION. o Selecting DIPOLE/QUADRUPOLE will retrieve articles reporting magnetic dipole moments/electric quadrupole moments.
Warning: Do not trust NSR blindly! Some of the “Measured” fields may be more restrictive than what you think.
Jag Tuli Vienna Nov 10-11, 2008
Q-calcwww.nndc.bnl.gov/qcalc
Nuclear reaction and decay Q-values can be calculated using the Q-Calc tool, which uses the 2003 atomic mass evaluation of Audi et al., G.Audi, A.H. Wapstra, C. Thibault, Nucl. Phys. A729, 337 (2003).
For a nucleus with Z protons, N neutrons and mass M(Z,N), the most common decay Q-values are:
- Q(-)=M(Z,N)-M(Z+1,N-1)
Electron capture
Q(EC)=M(Z,N)-M(Z-1,N+1)
+ Q(+)=M(Z,N)-M(Z-1,N+1)– 2Me
Alpha emission
Q()=M(Z,N)-M(Z-2,N-2)-M(2,2)
Proton emission
Q(p)=M(Z,N)-M(Z-1,N-1)-M(1,1)
Double - Q(2-)=M(Z,N)-M(Z+2,N-2)
Double EC Q(2EC)=M(Z,N)-M(Z-2,N+2)
The neutron and proton separation energies are defined as:
S(p)=-Q(p)S(n)=-Q(n)
Jag Tuli Vienna Nov 10-11, 2008
In ENSDF evaluation, most of the time we are interested in decay Q-values, which can be obtained by simply giving the nucleus of interest
Jag Tuli Vienna Nov 10-11, 2008
NuDatwww.nndc.bnl.gov/nudat2
NuDat is a web application a) to present nuclear structure and decay information from ENSDF in a user-friendly way, and b) to allow users to execute complex search operations in the wealth of data contained in ENSDF. NuDat provides an interactive chart of nuclides for navigation. NuDat contents are updated regularly as evaluations are revised in ENSDF.
NuDat for the web was developed by Alejandro Sonzogni,
[email protected], of the National Nuclear Data Center (NNDC), Brookhaven National Laboratory.
The slides presented here are courtesy of Alejandro Sonzogni.
More on www.nndc.bnl.gov/nudat2/help
Jag Tuli Vienna Nov 10-11, 2008
NuDat front page
Chart, active area
Navigation ControlsHelp
Search forms
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NuDat chart
Clicking on 132Sn
Basic info + links to more details
Same if typing 132sn and clicking go
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NuDat chart Changing the zoom value
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NuDat chart Decay Mode colors
Standard uncertainties style
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Levels SearchSearch for first 2+ states in N=86 Nuclides
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Results
Tool for systematic studies
For more search examples, see Help file
Jag Tuli Vienna Nov 10-11, 2008
Decay Search
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Results
Where are the electrons coming from?
Jag Tuli Vienna Nov 10-11, 2008