- Schmidke, WB;
- Abrams, GS;
- Matteuzzi, C;
- Amidei, D;
- Baden, AR;
- Barklow, T;
- Boyarski, AM;
- Boyer, J;
- Breidenbach, M;
- Burchat, PR;
- Burke, DL;
- Butler, F;
- Dieterle, WE;
- Dorfan, JM;
- Feldman, GJ;
- Gidal, G;
- Gladney, L;
- Gold, MS;
- Goldhaber, G;
- Golding, LJ;
- Haggerty, J;
- Hanson, G;
- Hayes, K;
- Herrup, D;
- Hollebeek, RJ;
- Innes, WR;
- Jaros, JA;
- Juricic, I;
- Kadyk, JA;
- Karlen, D;
- Klein, SR;
- Lankford, AJ;
- Larsen, RR;
- LeClaire, BW;
- Levi, ME;
- Lockyer, NS;
- Lüth, V;
- Nelson, ME;
- Ong, RA;
- Perl, ML;
- Richter, B;
- Riles, K;
- Ross, MC;
- Rowson, PC;
- Schaad, T;
- Schellman, H;
- Sheldon, PD;
- Trilling, GH;
- de la Vaissiere, C;
- Wood, DR;
- Yelton, JM;
- Zaiser, C
The branching ratios for + and -(n0), n>~1, have been measured to be 0.078 0.005 0.008 and 0.047 ± 0.005 ± 0.008, respectively. The total three-prong tau branching ratio is 0.128 ± 0.005 ± 0.008. Study of the 3± decay indicates that the three pions are predominantly from a JP=1+ state which decays through a 0± intermediate state in a relative s wave. The mass spectrum is suggestive of a resonance. © 1986 The American Physical Society.