Thermodynamics in the presence of electromagnetic fields

Zimmels, Y.

doi:10.1103/physreve.52.1452

Cited by 34 publications

(26 citation statements)

References 1 publication

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“…(1), the y 0 decreased with the increasing of the magnitude of DG r and the wettability of liquid metal/ceramics is strengthened. In the electromagnetic field, due to the non-volume work caused by electromagnetic field on the system is greater than zero [6,7], the interfacial reaction in the electromagnetic field is easier than that in the gravity field, and the free energy change caused by the chemical reaction in the electromagnetic field is greater than that in the gravity field, namely 9DG r 9 o 9DG r 0 9 Á DG r 0 is the free energy change for the liquid metal/ceramic system in the electromagnetic field. The new contact angle for the liquid metal/ceramic system in the electromagnetic field can be given as cos y 00 ¼ cos yÀDG r 0 =s lg ÀDs r =s lg ð2Þ…”

Section: Resultsmentioning

confidence: 98%

Wettability of titanium on calcia-stabilized zirconia in electromagnetic field

Liu

Guo

2012

Materials Letters

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Section: Resultsmentioning

confidence: 98%

Wettability of titanium on calcia-stabilized zirconia in electromagnetic field

Liu

Guo

2012

Materials Letters

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“…The system is characterized by the extensive parameters (U, V, N, B), where V , N and B denote respectively the volume, particle number and magnetic induction. In the case of linear magnetic systems the differential of the internal energy is given by [10,11]…”

Section: A Linear Magnetic Mediamentioning

confidence: 99%

Higher-order correlations for fluctuations in the presence of fields

Boer

Dumitru²

2002

Phys. Rev. E

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The higher-order moments of the fluctuations for thermodynamic systems in the presence of fields are investigated in the framework of a theoretical method. The method uses a generalized statistical ensemble consistent with an adequate expression for the internal energy. The applications refer to the case of a system in a magnetoquasistatic field. In the case of linear magnetic media, one finds that, for the description of the magnetic induction fluctuations, the Gaussian approximation is satisfactory. For nonlinear media, the corresponding fluctuations are non-Gaussian, having a non-null asymmetry. Furthermore, the respective fluctuations have characteristics of leptokurtic, mesokurtic and platykurtic type, depending on the value of the magnetic field strength as compared with a scaling factor of the magnetization curve.

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“…Their non-linearity is closely linked to the non-linearity of the ionic flow. Given their intensity, in the order of the picoTesla, they can be influenced by external devices, with which they tend to create a balance [7]. This balance can be analyzed through stochastic physics.…”

Section: Introductionmentioning

confidence: 99%

Improved Endurance Gain in BALB / C Mice by a Nanotechnology Medical Device

Altobello¹

2018

IJBMR

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The main finding of the present study was the improved endurance gain in BALB / C mice, following the application of a patch (T-NES®-HIT Tech.), enriched with an active central pad, based on micronized silver. In order to transfer very thin Extremely Low Frequency (ELF) magnetoelectric signals, the pad contains a nanotechnological material (silver micronized by plasma vaporization) that is appropriately activated with optical, magnetic, electrical, and acoustic signals. It has been reported previously that the ELF magnetic field, induces an action on cellular glycocalics, fundamental for cellular communication and recognition, and a direct activation of protons and ionic fluxes. The treated animals underwent exercises with Rotarod and several parameters were evaluated and compared with untreated control mice. The following parameters were measured: steady state generic training, long slow distance, high intensity "endurance" and steady state split session training. The ELF magnetic field of T-NES®-HIT Tech. micronized silver patch device, applied to BALB / C mice, markedly improved their endurance gain performance as evidenced by the increase of their aerobic capacity, maximum heart rate and maximum aerobic speed.

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Thermodynamics in the presence of electromagnetic fields

Cited by 34 publications

References 1 publication

Wettability of titanium on calcia-stabilized zirconia in electromagnetic field

Wettability of titanium on calcia-stabilized zirconia in electromagnetic field

Higher-order correlations for fluctuations in the presence of fields

Improved Endurance Gain in BALB / C Mice by a Nanotechnology Medical Device

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