Nucleus[1] Binding energy (MeV) g.s. Radius[3] & Deformation[4]
9739Y58   Yttrium
J(π)=(1/2-)
T1/2=3.75 s
  Experiment
[2]
Theory
[4]
Sh.corr.
[4]
Mass Excess -76.127179
(0.006993)
-75.680 3.840
BE 828.534 828.086
BE/A 8.542 8.537
<R2ch>1/2 = 4.358 ± 0.0116 fm [3]
Charge-density Distribution [6]

β2= 0.341
β3= 0.000
β4= 0.030
β6= 0.002
Excited States[1]
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Known and possible Decays[1] Q-values (keV)
roman [2], italic [4]
α - decay-5932.13
β- - decay6821.27
β+ - decay-8567.00
e-capture-7545.00
1p - decay-10486.32
2p - decay-24811.30
1n - decay-5856.89
2n - decay-11058.46
- - decay9480.98
β-,n1246.17
β-,2n-6608.19
β-,d-8051.52
β-,t-8724.10
β-1533.87
β-,n,α-3755.95
EC,p-22061.85
EC,2p-34546.30
EC,α-14416.12
Metastable states and Resonances[1] Radiation energies (keV)[1] Thermal neutrons[1] El.-Magn. properties[5,7,8]
 
E = 667.52 keV
T1/2 = 1.17 s
β-
99.3%
IT
0.7%
β-n
0.08%
E = 3522.6 keV
T1/2 = 142.00 ms
IT
94.8%
β-
5.2%
β- endpoint energies
γ-energies
 
μ (nm) Q (b) E* (keV)
+5.64(3)3522
+5.88(2)668
-0.12(1)0
-1.21(14)3522
-0.76(8)668
  
[1] National Nuclear Data Center, Evaluated Nuclear Structure Data File, https://www.nndc.bnl.gov/ensdf/.
[2] M. Wang, G. Audi, A.H. Wapstra, F.G. Kondev, M. MacCormick, X. Xu, and B. Pfeiffer, Chinese Physics C, 2012, vol. 36, pp. 1603-2014.
[3] I. Angeli, K.P. Marinova, Atomic Data and Nuclear Data Tables, 2013, vol. 99, pp. 69-95; unpublished update, 2016.
[4] P. Möller, A.J. Sierk, T. Ichikawa, H. Sagawa, Atomic Data and Nuclear Data Tables, 2016, vol. 109-110, pp. 1-204.
[5] N.J. Stone, https://www-nds.iaea.org/publications/indc/indc-nds-0658/; Atomic Data and Nuclear Data Tables, 2016, vol. 111-112, pp. 1–28.
[6] H. de Vries, C.W. de Jager, C. de Vries, Atomic Data and Nuclear Data Tables, 1987, vol. 36, pp. 495-536.
[7] B. Pritychenko, M. Birch, B. Singh, M. Horoi, Atomic Data and Nuclear Data Tables, 2016, vol. 107, pp. 1–139; 2017, vol. 114, pp. 371–374.
[8] T. Kibedi and R.H. Spear, Atomic Data and Nuclear Data Tables, 2002, vol. 80, pp. 35-82.