Abstract
AbstractA theoretical study is made of stimulation of hydrogen‐bonded‐chain‐proton conductivity in a constant longitudinal electric field by light‐and‐ultrasonic effects. The suggested mechanism of light effect is caused by nonactivated phonon transitions of charge carriers from the base level of one knot through an internal excited state to the base state of the neighbouring knot. The suggested mechanism of ultrasonic effect is caused by amplitude increase of acoustic fluctuations of the hydrogen bonded‐chain structure, that modulate the distance between knots, i.e. by increase of the resonance integral overlap of the carrier wave functions.
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