Analytical Theory of Electron-Spin-Echo Modulations in Correlated Radical Pairs

Shortly after their formation, transient free radicals trapped in micelles exhibit electron spin resonance (ESR) spectra with "antiphase" lineshapes, i.e. lines with their low-field halves in emission and high-field halves in absorption. It is demonstrated that this hitherto unexplained effect is co

The effects of exchange and electron-electron dipolar interactions on electron spin echo envelope modulation and free induction decay in a photo-induced spin-correlated radical pair are examined. Analytical expressions are derived for FID and spin echo signals as a two-dimensional function of the ti

The antiphase structure (APS) of CIDEP spectra of spin correlated radical pairs in viscous liquids is investigated theoretically in a free diffusion model for relative motion of radicals. A very simple and accurate formula for relative APS amplitude is derived. This formula predicts a very small AP

Previous attempts to interpret the time-resolved electron paramagnetic resonance spectra of photosynthetic bacteria have been based on the premise that electron spin polarization arises in the primary radical pair (P+I-) formed by photoinduced charge separation. The observed spectrum is assumed to b

The spin-correlated radical pair [P+'Q~'] in protonated zinc replaced reaction centers of Rb. sphaeroides R26 is studied using electron spin echo spectroscopy. Applying a (flash-t-pulse 1-T-pulse 2-T) pulse sequence, it was found that the shape of the echo at T = ~-is influenced markedly by the dela

We present a simple analytical treatment of the electron paramagnetic resonance (EPR) spectra of spin-correlated radical pairs, including the zero-quantum coherence with which they are created. We concentrate on the time dependence of the spectrum of a prototype radical pair, with exchange and dipol