Assessment of viscoelasticity of ex vivo bovine cartilage using Rayleigh wave method in the near-source and far-field region

Two main problems in high resolution electron microscopy are first, the existence of gaps in the transfer function, and then the difficulty to find complex amplitude of the diffracted wawe from registered intensity. The solution of this second problem is in most cases only intended by the realization of several micrographs in different conditions (defocusing distance, illuminating angle, complementary objective apertures…) which can lead to severe problems of contamination or radiation damage for certain specimens.Fraunhofer holography can in principle solve both problems stated above (1,2). The microscope objective is strongly defocused (far-field region) so that the two diffracted beams do not interfere. The ideal transfer function after reconstruction is then unity and the twin image do not overlap on the reconstructed one.We show some applications of the method and results of preliminary tests.Possible application to the study of cavitiesSmall voids (or gas-filled bubbles) created by irradiation in crystalline materials can be observed near the Scherzer focus, but it is then difficult to extract other informations than the approximated size.

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Experimental observation of asymmetrical microwave jets and far-field distribution generated by a dual-material system

Scientific Reports ◽

10.1038/s41598-021-91400-2 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

B. Varghese ◽

O. Shramkova ◽

P. Minard ◽

L. Blondé ◽

V. Drazic ◽

...

Keyword(s):

Near Field ◽

Microwave Frequency ◽

Far Field ◽

Material System ◽

Field Region ◽

Edge Diffraction ◽

Jet Behavior ◽

Electric Field Profile ◽

Dual Material ◽

Plane Wave Diffraction

AbstractIn this paper, we report the experimental and numerical investigation of plane wave diffraction by an all-dielectric dual-material cuboid. Edge diffraction by a cuboid leads to the generation of a narrow, high intensity beam in the near-field region called a photonic jet. We examine the dependence of the jet behavior and orientation on the materials and dimensions of constitutive parts in the microwave frequency domain. The possibility to shift and deviate the resultant microwave jet in the near-field region of such a structure depending on the size of constitutive parts is demonstrated numerically. Experimentally, we observe a shift in the spatial position of the jet. The experimental asymmetric electric field profile observed in the far-field region is attributed to the input of multiple edge waves generated by the dual-material cuboid. The presented results may be scaled at different frequency bands such as optical frequencies for designing nanostructures enabling the focusing and deviation functionality and creation of new optical devices which would satisfy the needs of emerging nanophotonic applications.

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On the Deviation of MAS Fields in the Far-Field Region of Elementary Sources Close to Infinite Boundaries

IEEE Transactions on Antennas and Propagation ◽

10.1109/tap.2021.3098619 ◽

2021 ◽

pp. 1-1

Author(s):

Christos Mystilidis ◽

Panagiotis J. Papakanellos

Keyword(s):

Far Field ◽

Field Region

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Reconstruction with Computerized Microwave Diffraction Tomography by Using Circular Measurement System in the Far-Field Region

Mathematical and Computational Applications ◽

10.3390/mca1020071 ◽

1996 ◽

Vol 1 (2) ◽

pp. 71-76

Author(s):

Sedef Kent ◽

Bingül Yazgan

Keyword(s):

Measurement System ◽

Diffraction Tomography ◽

Far Field ◽

Field Region

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An Asymptotic Model for the Far-Field of Rayleigh Wave in Multilayered Plate

Izvestiya of Saratov University New Series Series Mathematics Mechanics Informatics ◽

10.18500/1816-9791-2011-11-4-74-86 ◽

2011 ◽

Vol 11 (4) ◽

pp. 74-86

Author(s):

M. V. Wilde ◽

◽

L. Yu. Kossovich ◽

Keyword(s):

Rayleigh Wave ◽

Asymptotic Model ◽

Far Field ◽

Multilayered Plate

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Analysis of Coherent Structures in the Far-Field Region of an Axisymmetric Free Jet Identified Using Particle Image Velocimetry and Proper Orthogonal Decomposition

Journal of Fluids Engineering ◽

10.1115/1.2813137 ◽

2007 ◽

Vol 130 (1) ◽

Cited By ~ 21

Author(s):

A.-M. Shinneeb ◽

R. Balachandar ◽

J. D. Bugg

Keyword(s):

Particle Image Velocimetry ◽

Proper Orthogonal Decomposition ◽

Coherent Structures ◽

Particle Image ◽

Axial Direction ◽

Orthogonal Decomposition ◽

Far Field ◽

Field Region ◽

Image Velocimetry ◽

Proper Orthogonal

This paper investigates an isothermal free water jet discharging horizontally from a circular nozzle (9mm) into a stationary body of water. The jet exit velocity was 2.5m∕s and the exit Reynolds number was 22,500. The large-scale structures in the far field were investigated by performing a proper orthogonal decomposition (POD) analysis of the velocity field obtained using a particle image velocimetry system. The number of modes used for the POD reconstruction of the velocity fields was selected to recover 40% of the turbulent kinetic energy. A vortex identification algorithm was then employed to quantify the size, circulation, and direction of rotation of the exposed vortices. A statistical analysis of the distribution of number, size, and strength of the identified vortices was carried out to explore the characteristics of the coherent structures. The results clearly reveal that a substantial number of vortical structures of both rotational directions exist in the far-field region of the jet. The number of vortices decreases in the axial direction, while their size increases. The mean circulation magnitude is preserved in the axial direction. The results also indicate that the circulation magnitude is directly proportional to the square of the vortex radius and the constant of proportionality is a function of the axial location.

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