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QNtable.txt
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QNtable.txt
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Mikael Mieskolainen, 2018
Helicity decay matrix T (2s_1 + 1)x(2s_2 + 1) elements defined as:
T_{\lambda_1, \lambda_2}
= \sum_{ls} \alpha_{ls} <J \lambda | l s 0 \lambda> <s \lambda | s_1 s_2 \lambda_1 -\lambda_2>
:= \sum_{ls} \alpha_{ls} <clebsch-gordan1> <clebsch-gordan2>,
where \alpha_{ls} are free parameters (from theory/experiment).
Helicity is \lambda = \vec{J}.\vec{p}/|p| = \vec{l}.\vec{p}/|p| + m_s = m_s,
since (\vec{l}.\vec{p} = 0 always), -s <= m_s <= s
\lambda := \lambda_1 - \lambda_2 (Jacob-Wick)
\vec{s} = \vec{s_1} + \vec{s_2}, 0 <= |s| <= |s_1| + |s_2|
\vec{l} = \vec{J} - \vec{s}, 0 <= |l| <= |J| + |s| (by triangle ineq.)
Decay 1/288
[0^- > 0^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 2/288
[0^- > 0^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00 (P conserving)
Decay 3/288
[0^- > 0^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 4/288
[0^+ > 0^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00 (P conserving)
Decay 5/288
[0^+ > 0^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 6/288
[0^+ > 0^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x 1 (1.000)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.00 (P conserving)
Decay 7/288
[0^- > 1/2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 8/288
[0^- > 1/2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 9/288
[0^- > 1/2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 10/288
[0^- > 1/2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 11/288
[0^+ > 1/2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 12/288
[0^+ > 1/2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 13/288
[0^+ > 1/2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 14/288
[0^+ > 1/2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 15/288
[0^- > 1/2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82 (P conserving)
Decay 16/288
[0^- > 1/2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 17/288
[0^- > 1/2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82 (P conserving)
Decay 18/288
[0^+ > 1/2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 19/288
[0^+ > 1/2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82 (P conserving)
Decay 20/288
[0^+ > 1/2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/2} (-0.707)
l = 0, s = 0, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/2} (0.707)
l = 1, s = 1, \lambda_1 = -1/2 \lambda_2 = -1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 1, s = 1, \lambda_1 = 1/2 \lambda_2 = 1/2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.82
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 21/288
[0^- > 1^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58 (P conserving)
Decay 22/288
[0^- > 1^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 23/288
[0^- > 1^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 24/288
[0^- > 1^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58 (P conserving)
Decay 25/288
[0^+ > 1^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 26/288
[0^+ > 1^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58 (P conserving)
Decay 27/288
[0^+ > 1^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58 (P conserving)
Decay 28/288
[0^+ > 1^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x 1 (-0.577)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.58
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 29/288
[0^- > 1^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 30/288
[0^- > 1^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 31/288
[0^- > 1^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 32/288
[0^- > 1^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 33/288
[0^+ > 1^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 34/288
[0^+ > 1^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 35/288
[0^+ > 1^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 36/288
[0^+ > 1^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 37/288
[0^- > 1^- 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 38/288
[0^- > 1^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31 (P conserving)
Decay 39/288
[0^- > 1^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 40/288
[0^+ > 1^- 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31 (P conserving)
Decay 41/288
[0^+ > 1^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 42/288
[0^+ > 1^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/3} (-0.577)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/3} (0.577)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/2} (0.408)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/2} (-0.408)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/3} (0.365)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/6} (0.183)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.31 (P conserving)
Decay 43/288
[0^- > 2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 44/288
[0^- > 2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45 (P conserving)
Decay 45/288
[0^- > 2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45 (P conserving)
Decay 46/288
[0^- > 2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 47/288
[0^+ > 2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45 (P conserving)
Decay 48/288
[0^+ > 2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 49/288
[0^+ > 2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 50/288
[0^+ > 2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x 1 (0.447)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.45 (P conserving)
Decay 51/288
[0^- > 2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 52/288
[0^- > 2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 53/288
[0^- > 2^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 54/288
[0^- > 2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 55/288
[0^+ > 2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 56/288
[0^+ > 2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 57/288
[0^+ > 2^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 58/288
[0^+ > 2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 59/288
[0^- > 2^- 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90 (P conserving)
Decay 60/288
[0^- > 2^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 61/288
[0^- > 2^+ 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 62/288
[0^- > 2^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90 (P conserving)
Decay 63/288
[0^+ > 2^- 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 64/288
[0^+ > 2^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90 (P conserving)
Decay 65/288
[0^+ > 2^+ 1^- (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90 (P conserving)
Decay 66/288
[0^+ > 2^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 1, s = 1, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{3/10} (-0.316)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{1/2} (-0.316)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/2} (0.316)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
l = 3, s = 3, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{3/5} (-0.293)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/5} (-0.169)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = -0.90
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 67/288
[0^- > 2^- 2^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 68/288
[0^- > 2^- 2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56 (P conserving)
Decay 69/288
[0^- > 2^+ 2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 70/288
[0^+ > 2^- 2^- (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56 (P conserving)
Decay 71/288
[0^+ > 2^- 2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 72/288
[0^+ > 2^+ 2^+ (J^P > s_1^P_1 s_2^P_2)]
l = 0, s = 0, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 0, s = 0, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x -\sqrt{1/5} (-0.447)
l = 0, s = 0, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = 1 x \sqrt{1/5} (0.447)
l = 1, s = 1, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{2/5} (0.365)
l = 1, s = 1, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{1/10} (-0.183)
l = 1, s = 1, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x -\sqrt{1/10} (0.183)
l = 1, s = 1, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/3} x \sqrt{2/5} (-0.365)
l = 2, s = 2, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 2, s = 2, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x -\sqrt{2/7} (-0.239)
l = 2, s = 2, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{1/14} (0.120)
l = 2, s = 2, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/5} x \sqrt{2/7} (0.239)
l = 3, s = 3, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{1/10} (0.120)
l = 3, s = 3, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x -\sqrt{2/5} (0.239)
l = 3, s = 3, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{2/5} (-0.239)
l = 3, s = 3, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = FALSE, <cg1> x <cg2> = -\sqrt{1/7} x \sqrt{1/10} (-0.120)
l = 4, s = 4, \lambda_1 = -2 \lambda_2 = -2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
l = 4, s = 4, \lambda_1 = -1 \lambda_2 = -1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 0 \lambda_2 = 0 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{18/35} (0.239)
l = 4, s = 4, \lambda_1 = 1 \lambda_2 = 1 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{8/35} (0.159)
l = 4, s = 4, \lambda_1 = 2 \lambda_2 = 2 : \lambda = 0, P = OK, <cg1> x <cg2> = \sqrt{1/9} x \sqrt{1/70} (0.040)
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 1.56 (P conserving)
Decay 73/288
[1/2^- > 0^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 74/288
[1/2^- > 0^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 75/288
[1/2^- > 0^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 76/288
[1/2^+ > 0^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 77/288
[1/2^+ > 0^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 78/288
[1/2^+ > 0^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 79/288
[1/2^- > 1/2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 80/288
[1/2^- > 1/2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 81/288
[1/2^- > 1/2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 82/288
[1/2^- > 1/2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 83/288
[1/2^+ > 1/2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 84/288
[1/2^+ > 1/2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 85/288
[1/2^+ > 1/2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 86/288
[1/2^+ > 1/2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 87/288
[1/2^- > 1/2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 88/288
[1/2^- > 1/2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 89/288
[1/2^- > 1/2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 90/288
[1/2^+ > 1/2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 91/288
[1/2^+ > 1/2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 92/288
[1/2^+ > 1/2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 93/288
[1/2^- > 1^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 94/288
[1/2^- > 1^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 95/288
[1/2^- > 1^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 96/288
[1/2^- > 1^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 97/288
[1/2^+ > 1^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 98/288
[1/2^+ > 1^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 99/288
[1/2^+ > 1^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 100/288
[1/2^+ > 1^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 101/288
[1/2^- > 1^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 102/288
[1/2^- > 1^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 103/288
[1/2^- > 1^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 104/288
[1/2^- > 1^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 105/288
[1/2^+ > 1^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 106/288
[1/2^+ > 1^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 107/288
[1/2^+ > 1^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 108/288
[1/2^+ > 1^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 109/288
[1/2^- > 1^- 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 110/288
[1/2^- > 1^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 111/288
[1/2^- > 1^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 112/288
[1/2^+ > 1^- 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 113/288
[1/2^+ > 1^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 114/288
[1/2^+ > 1^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 115/288
[1/2^- > 2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 116/288
[1/2^- > 2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 117/288
[1/2^- > 2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 118/288
[1/2^- > 2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 119/288
[1/2^+ > 2^- 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 120/288
[1/2^+ > 2^- 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 121/288
[1/2^+ > 2^+ 0^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 122/288
[1/2^+ > 2^+ 0^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 123/288
[1/2^- > 2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 124/288
[1/2^- > 2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 125/288
[1/2^- > 2^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 126/288
[1/2^- > 2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 127/288
[1/2^+ > 2^- 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 128/288
[1/2^+ > 2^- 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 129/288
[1/2^+ > 2^+ 1/2^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 130/288
[1/2^+ > 2^+ 1/2^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 131/288
[1/2^- > 2^- 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 132/288
[1/2^- > 2^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 133/288
[1/2^- > 2^+ 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 134/288
[1/2^- > 2^+ 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 135/288
[1/2^+ > 2^- 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 136/288
[1/2^+ > 2^- 1^+ (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 137/288
[1/2^+ > 2^+ 1^- (J^P > s_1^P_1 s_2^P_2)]
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00
info: \sum_{ls\lambda1\lambda2} <cg1> x <cg2> = 0.00 (P conserving)
Decay 138/288