A master equation for power laws

Roman, Sabin; Bertolotti, Francesco

doi:10.1098/rsos.220531

Cited by 11 publications

(8 citation statements)

References 85 publications

(106 reference statements)

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“…where Resistance drift is mainly caused by internal defects or degradation of the film. The power law equation is used to describe the resistance drift 34 :…”

Section: Resultsmentioning

confidence: 99%

“…Resistance drift is mainly caused by internal defects or degradation of the film. The power law equation is used to describe the resistance drift 34 :

\begin{equation}{R}_t = {R}_0\ {\left(\frac{t}{{{\tau }_0}}\right)}^\alpha ,\ \end{equation}

where

{R}_t

represents the measured resistance, R 0 and τ 0 are the initial constants, and α is the resistance drift coefficient measuring the drift speed. Figures 3A–C display the resistance drift of [GeSb(7 nm)/Sb(3 nm)] 5 , [GeSb(5 nm)/Sb(5 nm)] 5 , and pure Sb films at isothermal temperature 85°C, respectively.…”

Section: Resultsmentioning

confidence: 99%

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Simultaneously low resistance drift and ultra‐fast phase change speed based on GeSb/Sb multilayer thin films

Wang,

Hu,

Zhang

et al. 2023

J Am Ceram Soc.

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Thermal stability and phase transition rate are two important issues that restrict the engineering applications of phase change memories. In this paper, GeSb/Sb multilayer films were prepared by multilayer stacking, and their phase transition properties were investigated. GeSb/Sb multilayer films had higher crystallization temperature, better data retention, and lower resistance drift than pure Sb films, which indicated that they had excellent thermal stability and accuracy of resistance identification. The test results of X‐ray diffraction and atomic force microscopy showed that GeSb spacer layers could inhibit grain growth of Sb film layers, thus reducing the roughness and potential fluctuation of the film surface. X‐ray reflectivity experiments showed that the GeSb/Sb multilayer films before and after crystallization had small volume changes. The devices based on [GeSb(7 nm)/Sb(3 nm)]8 multilayer films could achieve reversible resistive transition operation between SET and RESET at a pulse width of 10 ns, showing satisfactory transition rate and operational power consumption. The low resistance drift and ultra‐fast phase transition speed make GeSb/Sb multilayer films one of the promising choices for phase change memories.

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“…where Resistance drift is mainly caused by internal defects or degradation of the film. The power law equation is used to describe the resistance drift 34 :…”

Section: Resultsmentioning

confidence: 99%

“…Resistance drift is mainly caused by internal defects or degradation of the film. The power law equation is used to describe the resistance drift 34 :

\begin{equation}{R}_t = {R}_0\ {\left(\frac{t}{{{\tau }_0}}\right)}^\alpha ,\ \end{equation}

where

{R}_t

Section: Resultsmentioning

confidence: 99%

Simultaneously low resistance drift and ultra‐fast phase change speed based on GeSb/Sb multilayer thin films

Wang,

Hu,

Zhang

et al. 2023

J Am Ceram Soc.

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“…From a statistical analysis point of view, a reliable verification of a power-law function is only considered when the fit is over 1.5 orders of magnitude or more, on both the x-axes and y-axes [18], Rau (2002) [22], Stumpf and Porter (2012) [23], Andriani and McKelvey (2019) [24], and Roman and Bertolotti (2022) [25]).…”

Section: Allometry Geometry and The Quarter-power Scaling Rulementioning

confidence: 99%

Green Chemistry Allometry Test of Microwave-Assisted Synthesis of Transition Metal Nanostructures

Law,

Dowling

2023

AJAC

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Microwave irradiation is considered an important approach to Green Chemistry, because of its ability to rapidly increase the internal temperature of polar-organic compounds that lead to synthesis times of minutes rather than hours when compared to conventional thermal heating. This works describes a dual allometry test for the discrimination between the solvents and reagents used in the microwave-assisted synthesis of transition metal (zinc oxide, palladium silver, platinum, and gold) nanostructures. The test is performed in log-log process energy phase-space projection, where the synthesis data (kJ against kJ•mol −1 ) has a power-law signature. The test is shown to discriminate between recommended Green Chemistry, problematic Green Chemistry, and Green Chemistry hazardous solvents. Typically, recommended Green chemistry exhibits a broad y-axes distribution within an upper exponent = 1 and lower exponent = 0.5. Problematic Green Chemistry exhibits a y-axes narrower distribution with an upper exponent = 0.94 and lower exponent = 0.64. Non-Green Chemistry hazardous data exhibits a further narrowing of the y-axes distribution within upper exponent = 0.87 and lower exponent = 0.66. In all three cases, the y-axes is aligned to original database power-law signature. It is also shown that in the x-axes direction (process energy budget) the grouped order of magnitude decreases from four orders for recommended Green Chemistry solvent and reagent data, through two orders for non-Green Chemistry hazardous material and down to one order for problematic Green Chemistry.

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“…Unfortunately, even an apparently simple system of low dimensionality can be complex enough to generate this kind of behavior [35]. Moreover, socio-environmental systems are subject to unforeseeable events, such as natural disasters [36], emergent social inequality and technological breakthroughs [37,38], which can introduce additional unpredictable features.…”

Section: Introductionmentioning

confidence: 99%

Global history, the emergence of chaos and inducing sustainability in networks of socio-ecological systems

Roman,

Bertolotti

2023

PLoS ONE

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In this study, we propose a simplified model of a socio-environmental system that accounts for population, resources, and wealth, with a quadratic population contribution in the resource extraction term. Given its structure, an analytical treatment of attractors and bifurcations is possible. In particular, a Hopf bifurcation from a stable fixed point to a limit cycle emerges above a critical value of the extraction rate parameter. The stable fixed-point attractor can be interpreted as a sustainable regime, and a large-amplitude limit cycle as an unsustainable regime. The model is generalized to multiple interacting systems, with chaotic dynamics emerging for small non-uniformities in the interaction matrix. In contrast to systems where a specific parameter choice or high dimensionality is necessary for chaos to emerge, chaotic dynamics here appears as a generic feature of the system. In addition, we show that diffusion can stabilize networks of sustainable and unsustainable societies, and thus, interconnection could be a way of increasing resilience in global networked systems. Overall, the multi-systems model provides a timescale of predictability (300-1000 years) for societal dynamics comparable to results from other studies, while indicating that the emergent dynamics of networks of interacting societies over longer time spans is likely chaotic and hence unpredictable.

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A master equation for power laws

Cited by 11 publications

References 85 publications

Simultaneously low resistance drift and ultra‐fast phase change speed based on GeSb/Sb multilayer thin films

Simultaneously low resistance drift and ultra‐fast phase change speed based on GeSb/Sb multilayer thin films

Green Chemistry Allometry Test of Microwave-Assisted Synthesis of Transition Metal Nanostructures

Global history, the emergence of chaos and inducing sustainability in networks of socio-ecological systems

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