Metadevice for intensity modulation with sub-wavelength spatial resolution

Acoustic focusing with intensity modulation plays an important role in biomedical and life sciences. In this work, we propose a new approach for simultaneous phase and amplitude manipulation in sub-wavelength coupled resonant units, which has not been reported so far. Based on the equivalent impedance and refractive index modulation induced by the change of geometry, arbitrary amplitude response from 0 to 1 and phase shift from 0 to 2π is realized. Thus, the acoustic focusing with intensity modulation can be achieved via waveguide array. Herein, the focal length can be adjusted by alternating the length of supercell, and the whole system can work in a broadband of 0.872f0–1.075f0. By introducing the coding method, the thermal viscosity loss is reduced, and the wavefront modulation can be more accurate. Compared with previous works, our approach has the advantages of simple design and broadband response, which may have promising applications in acoustic communication, non-destructive testing, and acoustic holography.

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Multi-Spectral Image Fusion Using Intensity Modulation and Non-Separable Wavelet Frame

Design Engineering, Parts A and B ◽

10.1115/imece2005-80246 ◽

2005 ◽

Author(s):

Xuhong Yang ◽

Zhongliang Jing ◽

Jian-Xun Li

Keyword(s):

Remote Sensing ◽

High Resolution ◽

Spatial Resolution ◽

Intensity Modulation ◽

Spectral Information ◽

Wavelet Frame ◽

Remote Sensing Images ◽

Spectral Image ◽

Panchromatic Image ◽

Fusion Approach

A fusion approach is proposed to refine the resolution of multi-spectral images using the corresponding high-resolution panchromatic images. The technique is based on intensity modulation and non-separable wavelet frame. The high-resolution panchromatic image is decomposed by the non-separable wavelet frame. Then the wavelet coefficients are used as the factor of modulating to modulate the multi-spectral image. Experimental results indicate that, comparing with the traditional methods, the proposed method can efficiently preserve the spectral information while improving the spatial resolution of remote sensing images.

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Laser photoelectron projection microscopy of insulating samples with sub-wavelength spatial resolution

Journal of Experimental and Theoretical Physics ◽

10.1134/1.558355 ◽

1997 ◽

Vol 85 (4) ◽

pp. 690-696

Author(s):

S. K. Sekatskii

Keyword(s):

Spatial Resolution ◽

Sub Wavelength

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Direct measurements of three-dimensional localization of light near the nanostructures with sub-wavelength spatial resolution

Journal of Physics Conference Series ◽

10.1088/1742-6596/345/1/012005 ◽

2012 ◽

Vol 345 ◽

pp. 012005

Author(s):

A V Demin ◽

A A Ezhov ◽

G G Levin ◽

V I Panov

Keyword(s):

Spatial Resolution ◽

Three Dimensional ◽

Direct Measurements ◽

Sub Wavelength

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Sub-Wavelength EUV Imaging with 12.6nm Spatial Resolution Employing 13.5nm High Harmonic Beams

International Conference on Ultrafast Phenomena ◽

10.1364/up.2016.utu2b.2 ◽

2016 ◽

Author(s):

Giulia F. Mancini ◽

Dennis F. Gardner ◽

Michael Tanksalvala ◽

Elisabeth R. Shanblatt ◽

Xiaoshi Zhang ◽

...

Keyword(s):

Spatial Resolution ◽

High Harmonic ◽

Sub Wavelength ◽

Euv Imaging

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Photoreflectance Near-Field Scanning Optical Microscopy

MRS Proceedings ◽

10.1557/proc-588-13 ◽

1999 ◽

Vol 588 ◽

Cited By ~ 1

Author(s):

Charles Paulson ◽

Brian Hawkins ◽

Jingxi Sun ◽

Arthur B. Ellis ◽

Leon Mccaughan ◽

...

Keyword(s):

Optical Microscopy ◽

Electric Fields ◽

Spatial Resolution ◽

High Intensity ◽

Near Field ◽

And Topology ◽

Wavelength Resolution ◽

Scanning Optical Microscopy ◽

Near Field Scanning ◽

Sub Wavelength

AbstractA novel Near-field Scanning Optical Microscopy (NSOM) technique is used to obtain simultaneous topology, photoluminescence and photoreflectance (PR) spectra. PR spectra from GaAs surfaces were obtained and the local electric fields were calculated. Sub-wavelength resolution is expected for this technique and achieved for PL and topology measurements. Photovoltages, resulting from the high intensity of light at the NSOM tip, can limit the spatial resolution of the electric field determination.

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1-cm spatial resolution with large dynamic range in strain distributed sensing by Brillouin optical correlation domain reflectometry based on intensity modulation

10.1117/12.914248 ◽

2012 ◽

Cited By ~ 15

Author(s):

Sitthipong Manotham ◽

Masato Kishi ◽

Zuyuan He ◽

Kazuo Hotate

Keyword(s):

Spatial Resolution ◽

Dynamic Range ◽

Intensity Modulation ◽

Distributed Sensing ◽

Large Dynamic Range ◽

Optical Correlation

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Spatial resolution improvement based on intensity modulation in measurement of Brillouin dynamic grating localized by correlation domain technique

10.1117/12.968567 ◽

2012 ◽

Cited By ~ 1

Author(s):

Rodrigo Kendy Yamashita ◽

Zuyuan He ◽

Kazuo Hotate

Keyword(s):

Spatial Resolution ◽

Intensity Modulation ◽

Resolution Improvement ◽

Dynamic Grating

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Терагерцовый микроскоп на основе эффекта твердотельной иммерсии для визуализации биологических тканей-=SUP=-*-=/SUP=-

Журнал технической физики ◽

10.21883/os.2019.05.47665.14-19 ◽

2019 ◽

Vol 126 (5) ◽

pp. 642

Author(s):

Н.В Черномырдин ◽

А.С Кучерявенко ◽

Е.Н Римская ◽

И.Н Долганова ◽

В.А Желнов ◽

...

Keyword(s):

Spatial Resolution ◽

Near Field ◽

High Refractive Index ◽

Biological Tissues ◽

Backward Wave Oscillator ◽

Thz Wave ◽

Air Interface ◽

Wave Oscillator ◽

Wavelength Resolution ◽

Sub Wavelength

A novel method of terahertz (THz) microscopy was proposed for imaging of biological tissues with sub-wavelength spatial resolution. It allows for overcoming the Abbe diffraction limit and provides a sub-wavelength resolution thanks to the solid immersion effect – i.e. to the reduction in the dimensions of electromagnetic beam caustic, when the beam is focused in free space, at a small distance (smaller than the wavelength) behind the medium featuring high refractive index. An experimental setup realizing the proposed method was developed. It uses a backward wave oscillator, as a THz-wave emitter, and a Golay cell, as a THz-wave detector. In this setup, the radiation is focused behind the silicon hemisphere in order to realize the solid immersion effect. The spatial resolution of 0.15λ was demonstrated for the developed microscope, while the measurements were carried out at the wavelength of λ=500 μm, with the metal-air interface as a test object. Such a high spatial resolution represents a significant advantage over that of the previously reported arrangements of solid immersion microscopes. The solid immersion microscopy does not imply using any diaphragms or other near-field probes for achieving the sub-wavelength spatial resolution; thus, it eliminates the energy losses associated with such elements. The proposed methods were applied for imaging of biological tissues, and the observed results highlight its potential in biology and medicine.

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