Table 1. Experimental vertical detachment energies (VDE) from the photoelectron spectra of La₂B₇^– and La₂B₉^– in comparison with theoretical VDEs computed from the global minimum inverse sandwiches ^a .

Feature	VDE b (exp)	Final state and electronic configuration	VDE (theo.)
La 2 B 7 – (D 7h , 3 A 2 ′)
X	1.35(3)	2E2′′, {…1e2′21e3′43a2′′24a1′22e1′′43e1′41e2′′1}	1.40
A	2.22(3)	2E1′, {…1e2′21e3′43a2′′24a1′22e1′′43e1′31e2′′2}	2.31
		4E1′, {…1e2′21e3′43a2′′24a1′22e1′′43e1′31e2′′2}	2.33
B	2.81(4)	4E1′′, {…1e2′21e3′43a2′′24a1′22e1′′33e1′41e2′′2}	2.77
C	3.42(3)	2E1′′, {…1e2′21e3′43a2′′24a1′22e1′′33e1′41e2′′2}	3.28
D	∼3.8	4A1′′, {…1e2′21e3′43a2′′14a1′22e1′′43e1′41e2′′2}	3.47
		2A2′, {…1e2′21e3′43a2′′24a1′12e1′′43e1′41e2′′2}	3.91
		4A2′, {…1e2′21e3′43a2′′24a1′12e1′′43e1′41e2′′2}	3.93
		2A1′′, {…1e2′21e3′43a2′′14a1′22e1′′43e1′41e2′′2}	4.01
E	4.47(4)	2E3′, {…1e2′21e3′33a2′′24a1′22e1′′43e1′41e2′′2}	4.44
		4E3′, {…1e2′21e3′33a2′′24a1′22e1′′43e1′41e2′′2}	4.46
		4E2′, {…1e2′11e3′43a2′′24a1′22e1′′43e1′41e2′′2}	7.22
		2E2′, {…1e2′11e3′43a2′′24a1′22e1′′43e1′41e2′′2}	7.36
La 2 B 9 – (D 9h , 1 A 1 ′)
X	2.04(7)	2E1′′, {…1a2′24e1′43a2′′25a1′25e1′42e1′′43e1′′3}	1.98
A	3.09(9)	2E1′′, {…1a2′24e1′43a2′′25a1′25e1′42e1′′33e1′′4}	3.08
B	3.38(7)	2E1′, {…1a2′24e1′43a2′′25a1′25e1′32e1′′43e1′′4}	3.44
C	4.09(7)	2A1′, {…1a2′24e1′43a2′′25a1′15e1′42e1′′43e1′′4}	3.96
D	4.33(5)	2A2′, {…1a2′24e1′43a2′′15a1′25e1′42e1′′43e1′′4}	4.24
E	4.94(4)	2E1′, {…1a2′24e1′33a2′′25a1′25e1′42e1′′43e1′′4}	4.63
F	∼6.0	2A2′, {…1a2′14e1′43a2′′25a1′25e1′42e1′′43e1′′4}	6.43

^aAll energies are in eV.

^bThe numbers in the parentheses represent the uncertainty in the last digit.