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1. 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...

   Razvan Stoian, Ciro D’Amico, ... Guanghua Cheng in Ultrafast Laser Nanostructuring

   Chapter 2023
   

2. Nanomechanics of Materials: Overview

   Recent experiments on nanoscale and nanostructured materials, including nanowires, nanopillars, nanoparticles, nanocrystalline, and two-dimensional...

   Ting Zhu, Dengke Chen in Handbook of Materials Modeling

   Reference work entry 2020
   

3. 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...

   Mojtaba Ashhadi in Indian Journal of Physics

   Article 25 September 2023
   

4. Nanomechanics of Materials: Overview

   Recent experiments on nanoscale and nanostructured materials, including nanowires, nanopillars, nanoparticles, nanocrystalline, and two-dimensional...

   Ting Zhu, Dengke Chen in Handbook of Materials Modeling

   Living reference work entry 2019
   

5. 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...

   Linran Fan, Chang-Ling Zou, ... Hong X. Tang in Nature Photonics

   Article 11 March 2019
   

6. 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...

   F. M. Borodich in Physical Mesomechanics

   Article 01 January 2019

7. 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,...

   G. P. Cherepanov in Physical Mesomechanics

   Article 01 January 2019

8. 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...

   Sumit Kumar, Dylan Cattiaux, ... **n Zhou in Journal of Low Temperature Physics

   Article 29 January 2022
   

9. 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...

   Fangzhou **a, Ivo W. Rangelow, Kamal Youcef-Toumi in Active Probe Atomic Force Microscopy

   Chapter 2024
   

10. A Moment-Elasticity Thin Shell Model for Shear-Plus-Rotation Deformation

    Abstract

    The paper proposes a thin shell model based on moment elasticity with independent displacement and rotation fields for...

    S. H. Sargsyan in Physical Mesomechanics

    Article 01 February 2021

11. 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...

    Marc Mora, Rafael Tapia-Rojo, Sergi Garcia-Manyes in Single Molecule Analysis

    Protocol 2024
    

12. Application of the Reduced and Selected Integration Method in Problems of Micropolar Elasticity Theory

    Abstract

    In this paper, a variational principle of Lagrange, the Ritz method, and piecewise polynomial shape functions of brick family ‘‘linear’’...

    A. V. Romanov in Moscow University Mechanics Bulletin

    Article 01 February 2024
    

13. On the Variational Principle of Lagrange in the Micropolar Theory of Elasticity at Nonisothermal Processes

    Abstract

    In this paper, a variational principle of Lagrange, the Ritz method, and piecewise polynomial serendipity shape functions are used to obtain...

    A. V. Romanov in Moscow University Mechanics Bulletin

    Article 01 August 2023

14. Spatial Dispersion of Acoustic Waves in Functionally Graded Rods

    Abstract

    Harmonic acoustic waves in a semi-infinite functional-gradient (FG) one-dimensional rod with arbitrary longitudinal inhomogeneity are...

    A. I. Karakozova in Mechanics of Solids

    Article 01 February 2024
    

15. Quantum Theory of Nonlinear Plasmonics by S. G. Rautian

    Abstract

    Resonance properties of the local field of metal fractal clusters are considered. The effects of surface-enhanced Raman scattering,...

    V. P. Drachev in Optoelectronics, Instrumentation and Data Processing

    Article 01 February 2024
    

16. 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...

    Rafael Tapia-Rojo, Marc Mora, ... Sergi Garcia-Manyes in Nature Physics

    Article 07 November 2022
    

17. 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....

    Mingkang Wang, Rui Zhang, ... Vladimir A. Aksyuk in Communications Physics

    Article Open access 15 September 2021
    

18. 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....

    Shui-**g Tang, Mingjie Zhang, ... Yun-Feng **ao in Nature Photonics

    Article 31 July 2023
    

19. 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...

    Richard Pedurand, Ilya Golokolenov, ... Andrew Fefferman in Journal of Low Temperature Physics

    Article 19 March 2024
    

20. Application of the Standard Tap** Mode of an Atomic-Force Microscope for Local Investigations of the Electronic System of Carbon Nanotubes under Vacuum Conditions

    Abstract

    The possibility of local investigations of the electronic system of carbon nanotubes (CNTs) at a pressure of P < 10 ^–2 mbar is shown using...

    A. A. Zhukov in Instruments and Experimental Techniques

    Article 01 February 2022