Spontaneous Vibrations and Stochastic Resonance of Short Oligomeric Springs

Astakhov, Alexey M.; Petrovskii, Vladislav S.; Frolkina, Maria A.; Markina, Anastasia A.; Muratov, Alexander D.; Valov, Alexander F.; Avetisov, Vladik A.

doi:10.3390/nano14010041

Nanomaterials

2023

DOI: 10.3390/nano14010041

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Spontaneous Vibrations and Stochastic Resonance of Short Oligomeric Springs

Alexey M. Astakhov,

Vladislav S. Petrovskii,

Maria A. Frolkina

et al.

Abstract: There is growing interest in molecular structures that exhibit dynamics similar to bistable mechanical systems. These structures have the potential to be used as two-state operating units for various functional purposes. Particularly intriguing are the bistable systems that display spontaneous vibrations and stochastic resonance. Previously, via molecular dynamics simulations, it was discovered that short pyridine–furan springs in water, when subjected to stretching with power loads, exhibit the bistable dynam… Show more

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2024

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Cited by 2 publications

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Inhomogeneous elastic stretching of carbon nanosprings

Savin,

Dmitriev

2024

Computational Materials Science

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Inhomogeneous elastic stretching of carbon nanosprings

Savin,

Dmitriev

2024

Computational Materials Science

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Coarse-graining bistability with the Martini force field

Muratov,

Avetisov

2024

Physics of Fluids

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An increasing interest in molecular structures whose long-term dynamics resemble those of bistable mechanical systems promotes the search of possible candidates that may operate as two-state switching units. Of particular interest are the systems that are capable to exhibit such bistable effects as spontaneous vibrations, stochastic resonance, and spontaneous synchronization. Previously, in all-atom molecular dynamics simulations, it has been demonstrated that short pyridine–furan springs show these bistable phenomena. In this article, we introduce a coarse-grained model of such springs and investigate the possibility to observe the bistability effects, such as spontaneous vibrations. Our findings allow the studies of short pyridine–furan springs at large time and length scales and open field for further computational research of large bistable systems.

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Spontaneous Vibrations and Stochastic Resonance of Short Oligomeric Springs

Cited by 2 publications

References 62 publications

Inhomogeneous elastic stretching of carbon nanosprings

Inhomogeneous elastic stretching of carbon nanosprings

Coarse-graining bistability with the Martini force field

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