Influence of static magnetic fields on chirally autocatalytic radical-pair reactions

The effects of fluctuating magnetic fields on the yields of chemical reactions are explored within the radical pair mechanism, for the case in which singlet and triplet radical pairs disappear at equal rates. Approximate analytical expressions and exact numerical calculations are used to discuss the

We can expect that biological responses to very weak ELF electromagnetic fields will be masked by thermal noise. However, the spin of electrons bound to biologically important molecules is not strongly coupled to the thermal bath, and the effects of the precession of those spins by external magnetic

A static magnctlc field parallel to the dw\_ctlon of propqatlon of XI madcnt lyht beam causccs B small shift m the VCIIUC of the absorprlon cocffic~cnt of ;1 chuA molcculc. This shift IS not a cucular dlffcrcntal cfcct. It thcrcforc also occurs wth hncsrl~ polxwd I&M Howcvcr, for cnantlomcrs, the si

## Abstract It is believed that static magnetic fields (SMF) cannot affect the pattern formation of the Belousov–Zhabotinsky (BZ) reaction, which has been frequently studied as a simplified experimental model of a nonequilibrium open system, because SMF produces no induced current and the magnetic