Quantum Vacuum Photon Modes and Superhydrophobicity

Dellieu, Louis; Deparis, Olivier; Müller, Jérôme; Sarrazin, Michaël

doi:10.1103/physrevlett.114.024501

Cited by 12 publications

(37 citation statements)

References 40 publications

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“…To gain a deeper understanding of the effect of plasmons on the pressure, it is helpful to study its spectrum in ωk space, given by the integrand [7] of Equation (4). Several spectra are presented for the case of doped sheets (µ = 0.5 eV,hΓ = 0.02 eV, v F = 10 6 ms −1 ) in Figure 3.…”

Section: Non-local Plasmonsmentioning

confidence: 99%

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On the Non-Local Surface Plasmons’ Contribution to the Casimir Force between Graphene Sheets

Francescato

Pocock

Giannini

2020

Physics

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Herein we demonstrate the dramatic effect of non-locality on the plasmons which contribute to the Casimir forces, with a graphene sandwich as a case study. The simplicity of this system allowed us to trace each contribution independently, as we observed that interband processes, although dominating the forces at short separations, are poorly accounted for in the framework of the Dirac cone approximation alone, and should be supplemented with other descriptions for energies higher than 2.5 eV. Finally, we proved that distances smaller than 200 nm, despite being extremely relevant to state-of-the-art measurements and nanotechnology applications, are inaccessible with closed-form response function calculations at present.

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Section: Non-local Plasmonsmentioning

confidence: 99%

“…These forces are of critical technological importance, as they cause stiction in micro and nano electromechanical systems (MEMS and NEMS) [3]. In addition, they are linked to many surface effects, such as wettability [4] and friction [5], and hold promise as a means to achieve levitation [6].…”

Section: Introductionmentioning

confidence: 99%

On the Non-Local Surface Plasmons’ Contribution to the Casimir Force between Graphene Sheets

Francescato

Pocock

Giannini

2020

Physics

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“…U Fig.1). The effective dielectric function of the shell layer can be modeled by the Lichtenecker model [13][14][15] …”

Section: Optical Absorption Properties Of Ag@fe 3 O 4 Nanoflowersmentioning

confidence: 99%

Thermal-Induced Stress of Plasmonic Magnetic Nanocomposites

2017

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We present theoretical calculations to interpret optical and mechanical properties of Ag@Fe 3 O 4 nanoflowers. The microstructures and nature of optical peaks of nanoflowers are determined by means of the Mie theory associated with effective dielectric approximation and the experimental absorption spectrum. Under laser illumination, the thermal strain fields inside and outside the structure due to the absorbed optical energy are studied using continuum mechanics approach. Our findings provide simple but comprehensive description of the elastic behaviors of previous experiments.

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“…(iii) Quantum vacuum. In the quantum vacuum 33 , under certain conditions, the virtual gravitational dipoles can produce the extra gravity attributing to the dark matter usually. (iv) Topological defeats.…”

Section: Dark Matter Theorymentioning

confidence: 99%

Some properties of dark matter field in the complex octonion space

Weng

2015

Int. J. Mod. Phys. A

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The paper aims to consider the electromagnetic adjoint-field in the complex octonion space as the dark matter field, describing some properties of dark matter, especially the origin, particle category, existence region, and force and so forth. Since J. C. Maxwell applied the algebra of quaternions to depict the electromagnetic theory, some scholars adopt the complex quaternion and octonion to study the physics property of electromagnetic and gravitational fields. In the paper, by means of the octonion operator, it is found that the gravitational field accompanies with one adjoint-field, which property is partly similar to that of electromagnetic field. And the electromagnetic field accompanies with another adjoint-field, which feature is partly similar to that of gravitational field. As a result the electromagnetic adjoint-field is able to be chosen as one candidate of the dark matter field. According to the electromagnetic adjoint-field, it is able to predict a few properties of dark matter, for instance, the particle category, interaction intensity, interaction distance, and existence region and so forth. The study reveals that the dark matter particle and gravitational resource both will be influenced by the gravitational strength and force. The dark matter field is capable of making a contribution to physics quantities of gravitational field, including the angular momentum, torque, energy, and force and so on. Further there may be comparatively more chances to discover the dark matter in some regions with the ultrastrong field strength, surrounding the neutral star, white dwarf, galactic nucleus, black hole, and astrophysical jet and so on.Comment: A few minor changes in the second version, due to the typewriting erro

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Quantum Vacuum Photon Modes and Superhydrophobicity

Cited by 12 publications

References 40 publications

On the Non-Local Surface Plasmons’ Contribution to the Casimir Force between Graphene Sheets

On the Non-Local Surface Plasmons’ Contribution to the Casimir Force between Graphene Sheets

Thermal-Induced Stress of Plasmonic Magnetic Nanocomposites

Some properties of dark matter field in the complex octonion space

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