Optical detection of magnetic resonance on triplet states in organic crystals

By magnetic resonance es~criments on the phosphorescing triplet state of biacetyl in a 3-methytpentane glass the zero field splittings and the populating and depopulating rates of the individual triplet spin Ieveis have been me=ured. From these data an assignment of the zero field levels and mechani

Nuclear quadrupole effects on the tnplet-state opircally detected magnetic resonance (ODMR) of molecules having spin I = 1 nuclei have been investigated by theoreucal melhods Beginning W&I an exact dlagonaluanon of the tnpler-state spin Harrultoman, rhese methods have mvolved a systemauc vanallon m

Photoevated rnplet stares III naphrhaknc-tetmcynnobcnzene smgle crystals were mvesclgstrdat 4.3 K by zero-field optuxdly detected magneuc resonance and at room temperature by conventIonal h&field electron pxamagncuc resonance. The low-tempenuuc cxpenmenrs revealed ;It least three mplct-state traps w

A zero field magnetic resonance spectrometer capable of investigating triplet states undergoing physical or chemicai processes in tens of nanoseconds is described. The spectrometer emplo] s pulsed laser exitation and time-resolved phosphorcscence detection. together with very high power (1 I&Q micro