Work Extraction and Performance of Colloidal Heat Engines in Viscoelastic Baths

Gomez-Solano, Juan Ruben

doi:10.3389/fphy.2021.643333

Cited by 15 publications

(11 citation statements)

References 86 publications

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“…Here τ is the relaxation time of the fluid, γ 0 and γ are the solvent and the polymer contributions of the frictional coefficient, respectively [70]. Notably, the memory kernel will be viscous-like (delta-correlated) in the τ → 0 limit as discussed in [47,52]. Hereafter, we refer to this limit as the viscous limit.…”

Section: Resultsmentioning

confidence: 99%

“…Similarly, recent experiments have shown several intriguing phenomena related to the dynamics of an embedded particle as well as swimmers in viscoelastic fluids [45,46]. These observations include the increase in Kramer's rate of transitions [47][48][49], circular motion of active particles instead of only persistent random walks [50,51], increase in the rotational diffusion coefficient of an active Brownian particle by orders of magnitude compared to that in a viscous fluid [51], and very interestingly, the possibility of attaining the Carnot efficiency in microscopic sterling engine [52]. Several recent studies also show that viscoelasticity is essential for facilitating various biological processes [35,53,54].…”

Section: Introductionmentioning

confidence: 99%

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Enhanced directionality of active processes in a viscoelastic bath

Das,

Paul,

Manikandan

et al. 2023

New J. Phys.

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Active fluctuations are known to play a significant role in the intracellular transport of passive objects. However, the effect of viscoelasticity of the environment in shaping such processes is relatively less understood. Here, with a minimal experiment using a driven colloid in a viscoelastic bath, we show that viscoelasticity significantly increases the mean injected power to the passive object (~ 50% compared to a viscous medium), for the same strength of the external driving. Additionally, we observe a notable reduction in negative work fluctuations across a wide range of driving amplitudes. These findings collectively suggest an enhanced directionality in driven processes within a viscoelastic bath, which we attribute to the emergence of interactions between the colloid and the viscoelastic medium.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhanced directionality of active processes in a viscoelastic bath

Das,

Paul,

Manikandan

et al. 2023

New J. Phys.

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“…For example, viscoelasticity increases Kramer's rate of transition [27,28], active particles show circular motion in a viscoelastic bath instead of only persistent random walks [29,30], the rotational diffusion coefficient of an active Brownian particle in a viscoelastic bath increases by orders of magnitude compared to that in a viscous fluid [30], and very interestingly, the efficiency of the microscopic sterling engine operates in a viscoelastic fluid can reach Carnot efficiency [31]. Remarkably, some recent studies also show that viscoelasticity is essential for the facilitation of various biological processes [32][33][34].…”

Section: Introductionmentioning

confidence: 99%

Work fluctuations of Brownian harmonic oscillators driven by "active-like'' viscoelastic baths

Das¹,

Banerjee²,

Paul³

2023

Preprint

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We experimentally and theoretically investigate the dynamics and work fluctuations of an optically trapped micro-particle in a viscoelastic medium driven by an external Ornstein-Uhlenbeck (OU) noise. Compared to a viscous medium of the same zero-shear viscosity, we find a significant increase (∼ 50%) in the mean transferred power from the external forcing of a fixed noise strength to the particle due to the slow relaxation process of the viscoelastic medium considered in this study. The memory of the viscoelastic medium also leads to a small increase in the effective temperature of the particle and a high fluctuation in the work done by the external forcing. Consequently, as opposed to a viscous medium, negative work-fluctuations reduce extremely fast. This leads to the violation of the work fluctuation theorem (WFT) for a very small external noise, which may even be only ∼ 25% of the thermal noise strength in a non-Markovian viscoelastic bath. We further show that all the experimental findings can be described excellently from the Langevin dynamics of the process. Finally, we formulate the appropriate WFT for such a system from the calculated work probability density function.

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“…These developments emanated the notion of information engines, a system that extracts work from a single heat bath using the mutual information earned by the measurement. Execution of a feedback protocol [7][8][9][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26], however not limited to [27][28][29][30][31], is a widely popular mechanism to devise an information engine. Due to their consequences in living systems, several variants of information engines at the mesoscopic level have been studied theoretically, both classical [12][13][14] and quantum systems [7,[15][16][17], and validated through experiments [20,[22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Geometric Brownian Information Engine: Essentials for the best performance

Rafeek¹,

Ali²,

Mondal³

2022

Preprint

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We investigate a Geometric Brownian Information Engine (GBIE) in the presence of an error-free feedback controller that transforms the information gathered on the state of Brownian particles entrapped in monolobal geometric confinement into extractable work. Outcomes of the information engine depend on the reference measurement distance x m , feedback site x f and the transverse force G. We determine the benchmarks for utilizing the available information in an output work and the optimum operating requisites for best work extraction. Transverse bias force (G) tunes the entropic contribution in the effective potential and hence the standard deviation (σ ) of the equilibrium marginal probability distribution. We recognize that the amount of extracted work reaches a global maximum when x f = 2x m with x m ∼ 0.6σ , irrespective of the extent of the entropic limitation. Because of the higher loss of information during the relaxation process, the best achievable work of a GBIE is lower in an entropic system. The feedback regulation also bears the unidirectional passage of particles. The average displacement increases with growing entropic control and is maximum when x m ∼ 0.81σ . Finally, we explore the efficacy of the information engine, a quantity that regulates the efficiency in utilizing the information acquired. With x f = 2x m , the maximum efficacy reduces with increasing entropic control and shows a cross over from 2 to 11/9. We discover that the condition for the best efficacy depends only on the confinement length scale along the feedback direction. The broader marginal probability distribution accredits the increased average displacement in a cycle and the lower efficacy in an entropy-dominated system.

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Work Extraction and Performance of Colloidal Heat Engines in Viscoelastic Baths

Cited by 15 publications

References 86 publications

Enhanced directionality of active processes in a viscoelastic bath

Enhanced directionality of active processes in a viscoelastic bath

Work fluctuations of Brownian harmonic oscillators driven by "active-like'' viscoelastic baths

Geometric Brownian Information Engine: Essentials for the best performance

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