We present measurements
of the product-channel branching ratios
of the reactions (i) HD
+
+ HD forming H
2
D
+
+ D (38.1(30)%) and HD
2
+
+ H (61.9(30)%), (ii) HD
+
+ D
2
forming HD
2
+
+ D (61.4(35)%) and D
3
+
+ H (38.6(35)%), and (iii) D
2
+
+ HD forming
HD
2
+
+ D
(60.5(20)%) and D
3
+
+ H (39.5(20)%) at collision energies
E
coll
near zero, i.e., below
k
B
×
1 K. These branching ratios are compared with branching ratios predicted
using three simple models: a combinatorial model (M1), a model (M2)
describing the reactions as H-, H
+
-, D-, and D
+
-transfer processes, and a statistical model (M3) that relates the
reaction rate coefficients to the translational and rovibrational
state densities of the H
n
D
3–
n
+
+ H/D (
n
= 0, 1, 2 or 3)
product channels. The experimental data are incompatible with the
predictions of models M1 and M2 and reveal that the branching ratios
exhibit clear correlations with the product state densities.