Spin-lattice relaxation of linear triplet excitons in tetrachlorobenzene at high magnetic fields

We report mcasuriincnts on spin-lattjce relaxation (SLR) of linear triplet excitons in I,4 dibromonaphthalcne .', (1.4 D?N) sin& crystals at liquid ~~,eliktemperatures and at room temperature. SLR was found to be temperature dcptidcnt but isotropkrvith respect 'to the T;;ternal magnetic field.

Spm Lttttcc reiaxdtmn times of rnetact:iblc trq&!t states in dn org:mic molcfular crystal were mcabured at hq$~ magnetic fields up to energy level splitttngs &E near the Debyc acoustx limit. By an opticai method we Sound that the drrcct-process relaxation of the r?r = +1 Zceman state is domixttcd by

We have mexurcd the spm-lntlicc relaxation rates of the hnear chsm trlplet cxcitons m 1.2.4.5tctrxhlorobenzcnc WIglc cryst~~ls 3s a functmn of the ducctton of Ihc magnetic lield by means of laser flash cwtatron and clcctron spm-ccho technrqucs The observed orientatlonal depcndencc IS e\plancd by mtc

The three spin-lattice relaxation rates for the triplet state of ncridine in zerc-field have been determined in a biphenyl host from 1.7-3.2 K. The mean relaxation rate for the triplet state of phcnanthrene was determined in a biphenyl host from 1.3-13 K Two conclusions of a more general nature emer

We have measured the spin-lattice relaxation rates in the phosphorescent triplet state To of naphthalene in durene as a function of the &e&on of the magnetic field-The orientational dependence of the reIaxation is explained by thermal activation to a close Iying local phonon state where the spin axe