Impact of resonator on direct-detected rapid-scan EPR at 9.8 GHz

Rapid-scan electron paramagnetic resonance spectra at 9.8 GHz were obtained on a Bruker E580 spectrometer. Spectra of lithium phthalocyanine (LiPc) needles (T1=8 μs,T2=3.4 μs) and of a 0.2 mM aqueous solution of Nycomed triarylmethyl (trityl-CD3) radical (T1=11.5 μs,T2=8 μs) were recorded at scan rates between 3.4·103 and 7.5·105 G/s at the center of sinusoidal scans. Signals for LiPc were obtained with a split-ring resonator, a rectangular resonator and a dielectric resonator. At faster scan rates the small bandwidth of the high-Q dielectric resonator filters, out high-frequency components of the rapid-scan signals. Field inhomogeneities induced by the rapidly changing magnetic field increase with scan rate and are greater with the dielectric and split-ring resonantors than with the rectangular resonator. Data for trityl-CD3 were recorded with the rectangular resonator. The extended trityl sample, about 3 mm long, shows larger effects of magnetic field inhomogeneities than the small LiPc crystals.