ENSDF Decay Data in the MIRD
(Medical Internal Radiation Dose) Format
for 96Tc

43-TECHNETIUM-96 43-TECHNETIUM-96M
Additional Views or Possible Data Parent Information

43-TECHNETIUM-96

Halflife = 4.28 Days Apr-1993
Decay Mode: EC
Radiations


y(i)
(Bq-s)-1


E(i)
(MeV)


y(i)E(i)

ce-K, gamma 1 5.2710-05 1.00310-01 5.2910-06
gamma 4 2.4310-02 3.14310-01 7.6510-03
ce-K, gamma 4 2.6910-04 2.94310-01 7.9310-05
ce-L, gamma 4 3.1210-05 3.11410-01 a 9.7010-06
gamma 5 1.4010-02 3.16510-01 4.4210-03
ce-K, gamma 5 1.4610-04 2.96510-01 4.3210-05
gamma 10 7.4810-03 4.34710-01 3.2510-03
gamma 14 9.1810-03 5.68910-01 5.2210-03
gamma 18 9.9810-01 7.78210-01 7.7610-01
gamma 19 8.2010-01 8.12510-01 6.6610-01
gamma 21 9.7610-01 8.49910-01 8.2910-01
gamma 23 1.1010-02 1.091 1.2010-02
gamma 24 1.5210-01 1.127 1.7110-01
gamma 25 3.6910-03 1.200 4.4310-03
Kalpha1 X-ray 3.6010-01 1.74810-02 6.2910-03
Kalpha2 X-ray 1.8910-01 1.73710-02 3.2810-03
Auger-K 1.9910-01 1.48010-02 * 2.9510-03
Auger-L 9.5610-01 2.27010-03 * 2.1710-03

Listed X, gamma, and gamma Radiations 2.49
Omitted X, gamma, and gamma Radiations** 1.3810-02
Listed beta, ce, and Auger Radiations 5.2610-03
Omitted beta, ce, and Auger Radiations** 1.0110-05
Listed Radiations 2.49
Omitted Radiations** 1.3810-02

*   Average Energy (MeV).
a   Maximum Energy (MeV) for subshell.
** Each omitted transition contributes <0.100% to Sumof y(i)E(i).


Molybdenum-96 Daughter is stable.





43-TECHNETIUM-96M

Halflife = 51.5 Minutes Apr-1993
E(excitation) = 0.0342 MeV
Decay Modes: EC, IT
Radiations


y(i)
(Bq-s)-1


E(i)
(MeV)


y(i)E(i)

gamma 3 5.7010-04 3.50310-01 2.0010-04
gamma 4 5.6410-04 3.52510-01 1.9910-04
gamma 8 3.1110-03 4.80710-01 1.5010-03
gamma 10 6.7310-04 6.15910-01 4.1410-04
gamma 11 2.9610-03 7.19610-01 2.1310-03
gamma 12 1.8710-02 7.78210-01 1.4610-02
gamma 14 1.1610-03 8.47610-01 9.8510-04
gamma 15 2.8510-03 8.49810-01 2.4210-03
gamma 17 4.5410-04 9.66410-01 4.3810-04
gamma 18 8.0610-04 9.68510-01 7.8010-04
gamma 21 5.9610-04 1.091 6.5010-04
gamma 22 7.1610-04 1.097 7.8510-04
gamma 25 1.0810-02 1.200 1.2910-02
gamma 26 1.2710-04 1.238 1.5810-04
gamma 28 1.2010-03 1.498 1.8010-03
gamma 30 1.2410-04 1.626 2.0110-04
gamma 32 3.9410-04 1.816 7.1510-04
gamma 33 4.5010-05 1.846 8.3010-05
gamma 34 9.3710-05 1.957 1.8310-04
Kalpha1 X-ray 7.4810-03 1.74810-02 1.3110-04
Kalpha2 X-ray 3.9310-03 1.73710-02 6.8210-05
Auger-K 4.1510-03 1.48010-02 * 6.1410-05
Auger-L 1.9810-02 2.27010-03 * 4.4910-05
ce-K, gamma 1 4.3310-01 1.31610-02 5.7010-03
ce-L, gamma 1 4.3010-01 3.11610-02 a 1.3410-02
ce-M, gamma 1 8.7610-02 3.36610-02 a 2.9510-03
Kalpha1 X-ray 1.8510-01 1.83710-02 3.3910-03
Kalpha2 X-ray 9.7210-02 1.82510-02 1.7710-03
Kbeta X-ray 5.6910-02 2.06010-02 * 1.1710-03
L X-ray 3.6110-02 2.42010-03 * 8.7310-05
Auger-K 9.4210-02 1.55010-02 * 1.4610-03
Auger-L 8.3310-01 2.17010-03 * 1.8110-03

Listed X, gamma, and gamma Radiations 4.7810-02
Omitted X, gamma, and gamma Radiations** 3.0510-04
Listed beta, ce, and Auger Radiations 2.5410-02
Listed Radiations 7.3210-02
Omitted Radiations** 3.0510-04

*   Average Energy (MeV).
a   Maximum Energy (MeV) for subshell.
** Each omitted transition contributes <0.100% to Sumof y(i)E(i).


Molybdenum-96 Daughter, yield 2.0010-02, is stable.
Technetium-96 Daughter, yield 9.8010-01, is radioactive.







This program and the accompanying data base have been produced by the National Nuclear Data Center located at the Brookhaven National Laboratory, Upton, N.Y., USA, with funding from the U.S. Department of Energy. Neither the BNL nor the USDOE make any warranty or assume any legal responsibility for the contents of the data base.
Generated by MIRD Fri May 12 12:43:40 2000

Additional Views or Possible Data for the Parent 96Tc
CSISRS Experimental neutron-induced reaction data in the Exchange Format (EXFOR)
96Tc CS List production cross section datasets
ENSDF Evaluated Nuclear Structure Data File
ENSDF All decay datasets for the parent. Isotope Explorer may be used as a helper to view these data on Win95/98/NT platforms. (16.8 kbytes)
Table Simple HTML tables of information contained in the decay datasets (Est. size: 14.6 kbytes.)
Drawing PostScript file of the decay schemes in the Nuclear Data Sheets style (Est. size: 59.9 kbytes.)
MIRD PostScript files of the tables and decay schemes in the MIRD format
NSR Nuclear Science References
NuDat Nuclear Data File
Wallet Ground and metastable state properties
Radiations Decay Radiations

Parent Decays Feeding 96Tc
Parent Mode
96Tc IT