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Ultrafast Laser Volume Nanostructuring of Transparent Materials: From Nanophotonics to Nanomechanics
The capability of ultrashort laser pulses to generate nonlinear absorption in the transparency window of dielectric materials is at the base of... -
Nanomechanics of Materials: Overview
Recent experiments on nanoscale and nanostructured materials, including nanowires, nanopillars, nanoparticles, nanocrystalline, and two-dimensional... -
Ab initio study of the mechanical and electronic properties of 2D B2CX (X = O, S, Se) monolayers
Electronic structures and mechanical properties of two-dimensional B 2 CX (X = O, S, Se) monolayers were calculated using ab initio calculations. The...
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Nanomechanics of Materials: Overview
Recent experiments on nanoscale and nanostructured materials, including nanowires, nanopillars, nanoparticles, nanocrystalline, and two-dimensional... -
Spectrotemporal sha** of itinerant photons via distributed nanomechanics
Efficient phase manipulation of light is the cornerstone of many advanced photonic applications
1 –4 . However, the pursuit of compact, broadband and... -
Development of Barenblatt’s Scaling Approaches in Solid Mechanics and Nanomechanics
The main focus of the paper is on similarity methods in application to solid mechanics and author's personal development of Barenblatt's scaling...
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Theory of Superplasticity and Fatigue of Polycrystalline Materials Based on Nanomechanics of Fracturing and Failure
Fracture nanomechanics is the study of the interconnected process of the growth and birth of cracks and dislocations in the nanoscale. In this paper,...
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Microwave Optomechanically Induced Transparency and Absorption Between 250 and 450 mK
High-quality microwave amplifiers and notch-filters can be made from microwave optomechanical systems in which a mechanical resonator is coupled to a...
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Introduction to Atomic Force Microscopy
This chapter provides an overview of the atomic force microscope (AFM) system. It begins with a broad discussion on a list of tools available for... -
A Moment-Elasticity Thin Shell Model for Shear-Plus-Rotation Deformation
AbstractThe paper proposes a thin shell model based on moment elasticity with independent displacement and rotation fields for...
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Unfolding and Refolding Proteins Using Single-Molecule AFM
Single-molecule atomic force microscopy (AFM) allows capturing the conformational dynamics of an individual molecule under force. In this chapter, we... -
Application of the Reduced and Selected Integration Method in Problems of Micropolar Elasticity Theory
AbstractIn this paper, a variational principle of Lagrange, the Ritz method, and piecewise polynomial shape functions of brick family ‘‘linear’’...
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On the Variational Principle of Lagrange in the Micropolar Theory of Elasticity at Nonisothermal Processes
AbstractIn this paper, a variational principle of Lagrange, the Ritz method, and piecewise polynomial serendipity shape functions are used to obtain...
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Spatial Dispersion of Acoustic Waves in Functionally Graded Rods
AbstractHarmonic acoustic waves in a semi-infinite functional-gradient (FG) one-dimensional rod with arbitrary longitudinal inhomogeneity are...
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Quantum Theory of Nonlinear Plasmonics by S. G. Rautian
AbstractResonance properties of the local field of metal fractal clusters are considered. The effects of surface-enhanced Raman scattering,...
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Enhanced statistical sampling reveals microscopic complexity in the talin mechanosensor folding energy landscape
Statistical mechanics can describe the major conformational ensembles determining the equilibrium free-energy landscape of a folding protein. The...
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Fundamental limits and optimal estimation of the resonance frequency of a linear harmonic oscillator
All physical oscillators are subject to thermodynamic and quantum perturbations, fundamentally limiting measurement of their resonance frequency....
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Single-particle photoacoustic vibrational spectroscopy using optical microresonators
Vibrational spectroscopy is a ubiquitous technology that derives the species, constituents and morphology of an object from its natural vibrations....
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Progress Toward Detection of Individual TLS in Nanomechanical Resonators
The low-temperature properties of amorphous solids are usually explained in terms of atomic-scale tunneling two level systems (TLS). For almost 20...
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Application of the Standard Tap** Mode of an Atomic-Force Microscope for Local Investigations of the Electronic System of Carbon Nanotubes under Vacuum Conditions
AbstractThe possibility of local investigations of the electronic system of carbon nanotubes (CNTs) at a pressure of P < 10 –2 mbar is shown using...