## What is/are Single Spherical?

Single Spherical - Depending on the temperature and block architecture, single spherical or cylindrical micelles, lamellae with parallel and mutually orthogonal layers, and bi-continuous structures appear in the bulk, whereas snapshots in cylinders reveal lamellarcatenoid and spiral motifs.^{[1]}Experiments were conducted to elucidate the effect of fluid elasticity on the motion of single spherical and cylindrical particles in viscoelastic fluids.

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## single spherical particle

After introducing the context, the model that allows describing the fragile elastic mechanical response of a single spherical particle submitted to hydrogen is presented.^{[1]}This paper investigates the settling of a single spherical particle immersed in an initially unstructured thixo-viscoplastic fluid.

^{[2]}During the decay phase of the interaction of a femto-second Gaussian pulse with a single spherical particle, the presence of quasi-periodic short oscillatory bursts of electromagnetic energy at points in the near field outside the particle have been observed in three-dimensional simulations.

^{[3]}Using Generalized Lorenz Mie Theory (GLMT), the radiation force (RF) exerted on a single spherical particle by a LG beam is calculated.

^{[4]}HYPOTHESIS The standard model for diffusion and surface kinetics driven growth of a single spherical particle in solution is applied incorrectly throughout the literature.

^{[5]}Using Generalized Lorenz Mie Theory (GLMT), the radiation force (RF) exerted on a single spherical particle by a LG beam is calculated.

^{[6]}Images of the particles are reconstructed from the holograms and used to infer the three-dimensional structure of single spherical particles or clusters of sphere-like particles.

^{[7]}TEM and SEM images show single spherical particles for T-Fe (21.

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## single spherical gold

The cores consist of a single spherical gold nanoparticle whose localized surface plasmon resonance has a strong spectral overlap with the wavelength of the pump laser.^{[1]}We evaluate experimentally and theoretically the role of the residual ligands and ambient environment refractive index in the optical response of a single spherical gold nanoparticle on a substrate and demonstrate the changes in the near- and far-field properties of its hybridized modes in the presence of the cetyltrimethylammonium bromide (CTAB) layer.

^{[2]}In this paper, one single spherical gold nanoparticle (NP) placed on a flat gold substrate with a gap size of 10 nm is firstly studied.

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## single spherical nanoparticle

The scattering and absorption properties of light by a single spherical nanoparticle embedded in a non-absorbing, isotropic and homogeneous medium are analyzed theoretically in the framework of Lorenz-Mie theory.^{[1]}We show that correction-less collection of spectra from single spherical nanoparticles embedded in a polymer is possible over a wide spectral band, with large depth of focus, long working distance, and high lateral spatial resolution.

^{[2]}We simulate a simple nanocomposite consisting of a single spherical nanoparticle surrounded by coarse-grained polymer chains that are composed of two monomer types differing only in their interactions with the nanoparticle.

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## single spherical grain

Optimal oscillation parameters of vibrating screens are determined using analytical methods by investigating movement of a single spherical grain particle in the vibrating sieve’s non-inertial reference frame.^{[1]}The energy efficiency model is established based on the friction coefficient model of the single spherical grain, then the experiments and simulation are implemented to energetically evaluate the microscale material removal mechanisms from the specific energy contributions.

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## single spherical cell

The initial adhesion of a single spherical cell on a rough surface prior to the onset of any chemical or biological effect is simulated with a numerical approach including non-covalent interactions between the cell and textured substrate.^{[1]}We simulate delivery of one trapezoidal voltage pulse to either a single spherical cell or an assembly of three neighboring cells in a specific configuration and calculate cell deformation and pore formation.

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## single spherical cavity

A cross-section of the cable sector has been modeled in COMSOL without and with a single spherical cavity.^{[1]}Following two simulation protocols starting either from a homogeneous configuration or from a heterogeneous configuration with a single spherical cavity, spinodal cavitation (SC) and bubble collapse (BC) points w.

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## single spherical void

To disclose the possible effects of the dispersoids on the ductile fracture process in aluminium alloys, this paper presents a numerical study of a finite-element based unit cell, which consists of a single spherical void embedded in a matrix material represented by a porous plasticity model with void size effects.^{[1]}ABSTRACT Molecular dynamics simulations were carried out to perform tensile tests on B2-CuZr nanofilms at 1 K with a single spherical void defect.

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## single spherical defect

Conclusion: In this paper, an analytical solution and FEM methods performance when applied to the diffusion equation for heterogeneous media with a single spherical defect are compared.^{[1]}In this study, the effect of a single spherical defect on the tensile properties was investigated by embedding a spherical pore inside the SLM Ti6Al4V specimens.

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## single spherical pore

The seminal work of Gurson (1977) on a simplified pore structure, a single spherical pore, provided the first theoretical relationship between a material’s strength and its porosity, showing that the presence of pore space is responsible for lowering the yield strength.^{[1]}As an example, in the case of a cruciform joint with a load-carrying fillet weld, the influence of a single spherical pore is examined.

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## single spherical bubble

Several studies have investigated the dynamics of a single spherical bubble at rest under a nonstationary pressure forcing.^{[1]}Then, a sliding mode controller (SMC) is designed for the nonlinear system to regulate the radius of a single spherical bubble and prevent collapse occurrence, which has a great importance in some industrial applications.

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