The influence of the anharmonic vibron-phonon coupling, arising on account of a dressing effect, on the characteristics of the lattice subsystem in quasi-one-dimensional molecular crystals was examined within the pseudo-harmonic phonon approximation. It was found that solitons could induce specific modifications of the speed of sound which shows a temperature dependence quite different to that in the case of the linear excitations. The possibility of an indirect experimental verification of the existence of solitons in molecular chains is suggested on the basis of these predictions
The solitary wave propagation in an anharmonic monoatomic linear chain for the case of an external p...
We have studied analytically and numerically a nonlinear diatomic lattice with a cubic nearest-neigh...
The anharmonic contributions of O(λ<SUP>4</SUP>) to the phonon frequency shift and width at hig...
The influence of the anharmonic vibron-phonon coupling, arising on account of a dressing effect, on ...
We study the possible influence of polaron effect on the phonon spectrum in quasi-one-dimensional mo...
Internal vibrations of molecules are slightly affected by lattice effects in molecular crystals so t...
The modification of the speed of sound induced by the presence of breathers in a quasi-one-dimension...
The connection between sound wave propagation and vibrational relaxation in molecular crystals is di...
The dressing effect due to the quantum nature of phonons may cause the creation of bound states of s...
Possible modification of the phonon spectra due to the presence of small-polaron arising on account ...
Relaxation of the multivibron soliton in molecular chain on lattice vibrations is investigated withi...
Molecular dynamics computer simulation has been performed for solitons and phonons propagating in on...
The investigation is concerned with the nonlinear dynamics of one-dimensional molecular lattices, so...
Results of model calculations of the shift of phonon frequencies and of phonon widths with temperatu...
The propagation of FRENKEL exciton strongly coupled with phonons in molecular crystals is studied. T...
The solitary wave propagation in an anharmonic monoatomic linear chain for the case of an external p...
We have studied analytically and numerically a nonlinear diatomic lattice with a cubic nearest-neigh...
The anharmonic contributions of O(λ<SUP>4</SUP>) to the phonon frequency shift and width at hig...
The influence of the anharmonic vibron-phonon coupling, arising on account of a dressing effect, on ...
We study the possible influence of polaron effect on the phonon spectrum in quasi-one-dimensional mo...
Internal vibrations of molecules are slightly affected by lattice effects in molecular crystals so t...
The modification of the speed of sound induced by the presence of breathers in a quasi-one-dimension...
The connection between sound wave propagation and vibrational relaxation in molecular crystals is di...
The dressing effect due to the quantum nature of phonons may cause the creation of bound states of s...
Possible modification of the phonon spectra due to the presence of small-polaron arising on account ...
Relaxation of the multivibron soliton in molecular chain on lattice vibrations is investigated withi...
Molecular dynamics computer simulation has been performed for solitons and phonons propagating in on...
The investigation is concerned with the nonlinear dynamics of one-dimensional molecular lattices, so...
Results of model calculations of the shift of phonon frequencies and of phonon widths with temperatu...
The propagation of FRENKEL exciton strongly coupled with phonons in molecular crystals is studied. T...
The solitary wave propagation in an anharmonic monoatomic linear chain for the case of an external p...
We have studied analytically and numerically a nonlinear diatomic lattice with a cubic nearest-neigh...
The anharmonic contributions of O(λ<SUP>4</SUP>) to the phonon frequency shift and width at hig...