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Articoli di riviste sul tema "Microwave holography"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 1 agosto 2024

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1

Shang, Guanyu, Zhuochao Wang, Haoyu Li, Kuang Zhang, Qun Wu, Shah Burokur, and Xumin Ding. "Metasurface Holography in the Microwave Regime." Photonics 8, no. 5 (April 22, 2021): 135. http://dx.doi.org/10.3390/photonics8050135.

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Hologram technology has attracted a great deal of interest in a wide range of optical fields owing to its potential use in future optical applications, such as holographic imaging and optical data storage. Although there have been considerable efforts to develop holographic technologies using conventional optics, critical issues still hinder their future development. A metasurface, as an emerging multifunctional device, can manipulate the phase, magnitude, polarization and resonance properties of electromagnetic fields within a sub-wavelength scale, opening up an alternative for a compact holo
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Rochblatt, D. J., and B. L. Seidel. "Microwave antenna holography." IEEE Transactions on Microwave Theory and Techniques 40, no. 6 (June 1992): 1294–300. http://dx.doi.org/10.1109/22.141363.

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3

Gaikovich, Konstantin P., Petr K. Gaikovich, Yelena S. Maksimovitch, and Vitaly A. Badeev. "Subsurface Near-Field Microwave Holography." IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 9, no. 1 (January 2016): 74–82. http://dx.doi.org/10.1109/jstars.2015.2443035.

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Guler, M. G., and E. B. Joy. "High resolution spherical microwave holography." IEEE Transactions on Antennas and Propagation 43, no. 5 (May 1995): 464–72. http://dx.doi.org/10.1109/8.384190.

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5

Razevig V. V., Bugaev A. S., and Ivashov S. I. "Comparison of Back-Scattering and Forward-Scattering Methods in Short Range Microwave Imaging Systems." Technical Physics 67, no. 11 (2022): 1512. http://dx.doi.org/10.21883/tp.2022.11.55184.173-22.

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Microwave imaging technique allows obtaining images of hidden objects in structures and media using microwaves. Usually in short-range microwave imaging systems, the back-scattered signal is used, when a combined transmit-receive antenna scans over a plane, forming a two-dimensional synthesized aperture, while the signal reflected from the object of observation is recorded, as a result of which a microwave hologram of the object is formed. The second option involves registering the forward-scattered signal, when the transmitting and receiving antennas are located on opposite sides of the objec
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Ravan, Maryam, Reza K. Amineh, and Natalia K. Nikolova. "Two-dimensional near-field microwave holography." Inverse Problems 26, no. 5 (April 27, 2010): 055011. http://dx.doi.org/10.1088/0266-5611/26/5/055011.

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WANG, JinQing, XiuTing ZUO, Kesteven MICHAEL, RongBing ZHAO, LinFeng YU, YongBin JIANG, Wei GOU, YongChen JIANG, and Wen GUO. "TM65 m radio telescope microwave holography." SCIENTIA SINICA Physica, Mechanica & Astronomica 47, no. 9 (June 14, 2017): 099502. http://dx.doi.org/10.1360/sspma2016-00415.

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8

Su, Deer, Xinwei Wang, Guanyu Shang, Xumin Ding, Shah Nawaz Burokur, Jian Liu, and Haoyu Li. "Amplitude-phase modulation metasurface hologram with inverse angular spectrum diffraction theory." Journal of Physics D: Applied Physics 55, no. 23 (March 9, 2022): 235102. http://dx.doi.org/10.1088/1361-6463/ac5699.

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Abstract Designed metasurfaces, composed of a two-dimensional array of meta-atoms, provide an alternative approach to achieving efficient electromagnetic wave manipulation. Metasurface holography is an emerging and promising imaging technology, with improved image quality and spatial resolution compared to traditional holography. Many devices are fabricated only by coding specific phase responses of the designed metasurfaces. However, the modulation of both the amplitude and phase responses of electromagnetic waves can significantly improve the quality of the holographic image. In this paper,
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9

TSUCHIYA, Hayato, Naofumi IWAMA, Soichiro YAMAGUCHI, Ryota TAKENAKA, and Mayuko KOGA. "Feasibility Study of Holography Using Microwave Scattering." Plasma and Fusion Research 14 (September 25, 2019): 3402146. http://dx.doi.org/10.1585/pfr.14.3402146.

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10

Li, Shaozhong, and J. B. Khurgin. "Microwave-developed three-dimensional real-time holography." Optics Letters 18, no. 21 (November 1, 1993): 1855. http://dx.doi.org/10.1364/ol.18.001855.

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Kumari, Vineeta, Neelam Barak, and Gyanendra Sheoran. "Numerical three-step phase-shifting microwave holography." Optical Engineering 58, no. 11 (November 26, 2019): 1. http://dx.doi.org/10.1117/1.oe.58.11.114107.

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Gaikovich, K. P., A. I. Smirnov, and D. V. Yanin. "Near-Field Resonance Microwave Tomography and Holography." Radiophysics and Quantum Electronics 60, no. 9 (February 2018): 733–49. http://dx.doi.org/10.1007/s11141-018-9842-2.

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Fu, L., Y. S. Gui, L. H. Bai, H. Guo, H. Abou-Rachid, and C. M. Hu. "Microwave holography using a magnetic tunnel junction based spintronic microwave sensor." Journal of Applied Physics 117, no. 21 (June 7, 2015): 213902. http://dx.doi.org/10.1063/1.4921887.

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14

Tultemirova, G. U., N. T. Momunalieva, and A. J. Akkozov. "COMPUTER MODEL OF HOLOGRAM SYNTHESIS BY THE REAL PHASE." Herald of KSUCTA, №2, Part 1, 2022, no. 2-1-2022 (April 30, 2022): 289–94. http://dx.doi.org/10.35803/1694-5298.2022.2.289-294.

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Computer-synthesized holograms are widely used in areas such as optical information processing, image recognition, three-dimensional display of digital data, and modelling of holographic processes. It is difficult to overestimate the usefulness of the use of synthesized holograms for image reconstruction in acoustic and microwave holography. The use of synthesized holograms as elements of holographic storage devices is promising. Computer synthesis is often the only way to obtain holograms with desired properties. The main advantage of the synthesized hologram is that it is an effective means
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15

Chalodhorn, W., and D. R. DeBoer. "Use of microwave lenses in phase retrieval microwave holography of reflector antennas." IEEE Transactions on Antennas and Propagation 50, no. 9 (September 2002): 1274–84. http://dx.doi.org/10.1109/tap.2002.801401.

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KOGA, Mayuko, Ryota TAKENAKA, Hayato TSUCHIYA, Ryo MANABE, Naofumi IWAMA, Shuji YAMAMOTO, and Soichiro YAMAGUCHI. "Three-Dimensional Electromagnetic Field Calculation for Microwave Holography." Plasma and Fusion Research 16 (May 7, 2021): 1402063. http://dx.doi.org/10.1585/pfr.16.1402063.

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Kuwahara, Yoshihiko, and Kimihito Fujii. "Near Field Microwave Holography for Bio-Tissue Imaging." Open Journal of Medical Imaging 10, no. 03 (2020): 143–50. http://dx.doi.org/10.4236/ojmi.2020.103014.

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Rahmat-Samii, Y. "Microwave holography of large reflector antennas--Simulation algorithms." IEEE Transactions on Antennas and Propagation 33, no. 11 (November 1985): 1194–203. http://dx.doi.org/10.1109/tap.1985.1143515.

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19

Larsen, Finn, Jan Pieter van der Schaar, and Robert G. Leigh. "De Sitter Holography and the Cosmic Microwave Background." Journal of High Energy Physics 2002, no. 04 (April 25, 2002): 047. http://dx.doi.org/10.1088/1126-6708/2002/04/047.

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20

Rochblatt, D. J., and Y. Rahmat-Samii. "Effects of measurement errors on microwave antenna holography." IEEE Transactions on Antennas and Propagation 39, no. 7 (July 1991): 933–42. http://dx.doi.org/10.1109/8.86912.

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21

Amineh, Reza K., Ali Khalatpour, Haohan Xu, Yona Baskharoun, and Natalia K. Nikolova. "Three-Dimensional Near-Field Microwave Holography for Tissue Imaging." International Journal of Biomedical Imaging 2012 (2012): 1–11. http://dx.doi.org/10.1155/2012/291494.

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This paper reports the progress toward a fast and reliable microwave imaging setup for tissue imaging exploiting near-field holographic reconstruction. The setup consists of two wideband TEM horn antennas aligned along each other’s boresight and performing a rectangular aperture raster scan. The tissue sensing is performed without coupling liquids. At each scanning position, wideband data is acquired. Then, novel holographic imaging algorithms are implemented to provide three-dimensional images of the inspected domain. In these new algorithms, the required incident field and Green’s function a
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22

Ivashov, Sergey I., Vladimir V. Razevig, Dmitriy L. Sergeev, Alexander S. Bugaev, Feng Zhou, Elena I. Prokhanova, Anastasia V. Shcherbakova, Sergey N. Dobrynin, and Maxim Vasilenkov. "An Example of Microwave Holography Investigation of an Old Orthodox Russian Icon Dated to 19th Century." Heritage 5, no. 3 (September 19, 2022): 2804–17. http://dx.doi.org/10.3390/heritage5030145.

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The study, preservation and restoration of the cultural heritage objects of mankind are not only of great cultural importance but also have a significant economic component because cultural values of past centuries attract tourists from all over the world. The use of modern technical and scientific achievements in the field of non-destructive testing makes it possible to obtain new knowledge about cultural objects regarding their origin and dating, as well as to contribute to their better restoration and preservation. An important component of their use is additional opportunities to identify
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23

Elsdon, Michael, Okan Yurduseven, and David Smith. "EARLY STAGE BREAST CANCER DETECTION USING INDIRECT MICROWAVE HOLOGRAPHY." Progress In Electromagnetics Research 143 (2013): 405–19. http://dx.doi.org/10.2528/pier13091703.

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Rahmat-Samii, Y. "Correction to "Microwave holography of large reflector antennas--Simulation algorithms"." IEEE Transactions on Antennas and Propagation 34, no. 6 (June 1986): 853. http://dx.doi.org/10.1109/tap.1986.1143895.

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25

Gilmore, Sean W., and Roger C. Rudduck. "Enhanced imaging of reflector antenna surface distortion using microwave holography." Radio Science 24, no. 6 (November 1989): 763–70. http://dx.doi.org/10.1029/rs024i006p00763.

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26

ELSADEK, HALA, HESHAM ELDEIB, MASAKAZU UEDA, JUN HORIKOSHI, and TAKASHI YABE. "Using microwave holography and microstrip antenna for 3D mouse investigation." International Journal of Electronics 81, no. 2 (August 1996): 187–98. http://dx.doi.org/10.1080/002072196136850.

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27

Amineh, Reza K., Justin J. McCombe, Ali Khalatpour, and Natalia K. Nikolova. "Microwave Holography Using Point-Spread Functions Measured With Calibration Objects." IEEE Transactions on Instrumentation and Measurement 64, no. 2 (February 2015): 403–17. http://dx.doi.org/10.1109/tim.2014.2347652.

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28

Elsdon, M., D. Smith, M. Leach, and S. J. Foti. "Experimental investigation of breast tumor imaging using indirect microwave holography." Microwave and Optical Technology Letters 48, no. 3 (2006): 480–82. http://dx.doi.org/10.1002/mop.21384.

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29

Zhang, Chen, Li Deng, Ling Wang, Xue Chen, and Shufang Li. "Generation of Circularly Polarized Quasi-Non-Diffractive Vortex Wave via a Microwave Holographic Metasurface Integrated with a Monopole." Applied Sciences 11, no. 15 (August 2, 2021): 7128. http://dx.doi.org/10.3390/app11157128.

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In this paper, a novel method for generating a circularly polarized (CP) quasi-non-diffractive vortex wave carrying orbital angular momentum (OAM), based on the microwave holographic metasurface integrated with a monopole, is proposed. This method is the combination of the non-diffraction theory and the principle of waveguide-fed-based holography and is equivalent to a superposition of two scalar impedance modulation surfaces. To verify the proposed method, a holographic metasurface generating a left-handed circularly polarized (LHCP) quasi-non-diffractive vortex wave carrying −1 mode OAM at t
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30

James, G. C., G. T. Poulton, and P. M. McCulloch. "Panel setting from microwave holography by the method of successive projections." IEEE Transactions on Antennas and Propagation 41, no. 11 (1993): 1523–29. http://dx.doi.org/10.1109/8.267352.

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31

Amineh, Reza K., Maryam Ravan, Ali Khalatpour, and Natalia K. Nikolova. "Three-Dimensional Near-Field Microwave Holography Using Reflected and Transmitted Signals." IEEE Transactions on Antennas and Propagation 59, no. 12 (December 2011): 4777–89. http://dx.doi.org/10.1109/tap.2011.2165496.

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32

Flores-Tapia, Daniel, Diego Rodriguez, Mario Solis, Nikita Kopotun, Saeed Latif, Oleksandr Maizlish, Lei Fu, Yonsheng Gui, Can-Ming Hu, and Stephen Pistorius. "Experimental feasibility of multistatic holography for breast microwave radar image reconstruction." Medical Physics 43, no. 8Part1 (July 19, 2016): 4674–86. http://dx.doi.org/10.1118/1.4953636.

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33

Norgard, John, John Will, and Carl Stubenrauch. "Quantitative images of antenna patterns using infrared thermography and microwave holography." International Journal of Imaging Systems and Technology 11, no. 4 (2000): 210–18. http://dx.doi.org/10.1002/ima.1006.

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34

Iqbal, Shahid, Hamid Rajabalipanah, Lei Zhang, Xiao Qiang, Ali Abdolali, and Tie Jun Cui. "Frequency-multiplexed pure-phase microwave meta-holograms using bi-spectral 2-bit coding metasurfaces." Nanophotonics 9, no. 3 (February 4, 2020): 703–14. http://dx.doi.org/10.1515/nanoph-2019-0461.

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AbstractIn this paper, a dual-band reflective meta-hologram is designed providing two distinct information channels whose field intensity distributions can be independently manipulated at the same time. The proposed pure-phase meta-hologram is composed of several frequency-dispersive coding meta-atoms possessing each of 2-bit digital statuses of “00”, “01”, “10”, and “11” at either the lower (X-band) or the higher (Ku-band) frequency band. Relying on the weighted Gerchberg-Saxton phase retrieval algorithm, different illustrative examples have been provided to theoretically inspect the dual-ban
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35

MANABE, Ryo, Hayato TSUCHIYA, and Mayuko KOGA. "Trial of Deep Learning for Image Reconstruction of Lens-Less Microwave Holography." Plasma and Fusion Research 17 (June 22, 2022): 2401072. http://dx.doi.org/10.1585/pfr.17.2401072.

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36

Tajik, Daniel, Aaron D. Pitcher, and Natalia K. Nikolova. "COMPARATIVE STUDY OF THE RYTOV AND BORN APPROXIMATIONS IN QUANTITATIVE MICROWAVE HOLOGRAPHY." Progress In Electromagnetics Research B 79 (2017): 1–19. http://dx.doi.org/10.2528/pierb17081003.

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37

Lopez-Perez, Jose A., Pablo de Vicente Abad, Jose A. Lopez-Fernandez, Felix Tercero Martinez, Alberto Barcia Cancio, and Belen Galocha Iraguen. "Surface Accuracy Improvement of the Yebes 40 Meter Radiotelescope Using Microwave Holography." IEEE Transactions on Antennas and Propagation 62, no. 5 (May 2014): 2624–33. http://dx.doi.org/10.1109/tap.2014.2307351.

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38

Yu, Hong. "Microwave holography measurement and adjustment of 25-m radio telescope of Shanghai." Microwave and Optical Technology Letters 49, no. 2 (2006): 467–70. http://dx.doi.org/10.1002/mop.22171.

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39

Serdyuk, Vladimir M., and Joseph A. Titovitsky. "Methods of the diffraction theory for microwave aquametry of paper materials." Journal of the Belarusian State University. Physics, no. 3 (October 7, 2020): 32–45. http://dx.doi.org/10.33581/2520-2243-2020-3-32-45.

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We present a short review of several fundamental results, which have been obtained within frameworks of one trend of the wide spread of investigations, carried out during 1970 –2010s under the leadership of doctor of science, corresponding member of the National Academy of Sciences of Belarus P. D. Kukharchik, whose scientific interests were connected with the study of physical properties of heterogeneous dielectric and metal-containing industrial materials by the methods of holography, holographotomography, digital radiography, microwave and infrared introscopy. In this review, by the example
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40

Liu, Jiwei, Wenbin You, Jieyi Yu, Xianguo Liu, Xuefeng Zhang, Junjie Guo, and Renchao Che. "Electron Holography of Yolk–Shell Fe3O4@mSiO2 Microspheres for Use in Microwave Absorption." ACS Applied Nano Materials 2, no. 2 (January 23, 2019): 910–16. http://dx.doi.org/10.1021/acsanm.8b02150.

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41

Kumari, Vineeta, Aijaz Ahmed, Tirupathiraju Kanumuri, Chandra Shakher, and Gyanendra Sheoran. "Early detection of cancerous tissues in human breast utilizing near field microwave holography." International Journal of Imaging Systems and Technology 30, no. 2 (November 27, 2019): 391–400. http://dx.doi.org/10.1002/ima.22384.

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42

Kumari, Vineeta, Gyanendra Sheoran, and Tirupathiraju Kanumuri. "SAR analysis of directive antenna on anatomically real breast phantoms for microwave holography." Microwave and Optical Technology Letters 62, no. 1 (September 13, 2019): 466–73. http://dx.doi.org/10.1002/mop.32037.

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43

Antropov, O. S., V. F. Borulko, S. M. Vovk, and O. O. Drobakhin. "IMPROVEMENT OF EXTRAPOLATION-BASED MICROWAVE RANGE FOURIER HOLOGRAPHY METHOD EMPLOYING A MINIMUM-DURATION METHOD." Radio Physics and Radio Astronomy 1, no. 3 (2010): 249–56. http://dx.doi.org/10.1615/radiophysicsradioastronomy.v1.i3.80.

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44

Liu, Kangkang, Qian Ye, and Guoxiang Meng. "Surface error diagnosis of large reflector antenna with microwave holography based on active deformation." Electronics Letters 52, no. 1 (January 2016): 12–13. http://dx.doi.org/10.1049/el.2015.2725.

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45

You, Wenbin, Wen She, Zhengwang Liu, Han Bi, and Renchao Che. "High-temperature annealing of an iron microplate with excellent microwave absorption performance and its direct micromagnetic analysis by electron holography and Lorentz microscopy." Journal of Materials Chemistry C 5, no. 24 (2017): 6047–53. http://dx.doi.org/10.1039/c7tc01544e.

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46

Zamiri, Farshad, and Abdolreza Nabavi. "A modified Fresnel-based algorithm for 3D microwave imaging of metal objects." International Journal of Microwave and Wireless Technologies 11, no. 4 (September 12, 2018): 313–25. http://dx.doi.org/10.1017/s175907871800123x.

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Abstract (sommario):
AbstractMicrowave holography technique reconstructs a target image using recorded amplitudes and phases of the signals reflected from the target with Fast Fourier Transform (FFT)-based algorithms. The reconstruction algorithms have two or more steps of two- and three-dimensional Fourier transforms, which have a high computational load. In this paper, by neglecting the impact of target depth on image reconstruction, an efficient Fresnel-based algorithm is proposed, involving only one-step FFT for both single- and multi-frequency microwave imaging. Numerous tests have been performed to show the
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Tajik, Daniel, Romina Kazemivala, and Natalia K. Nikolova. "Real-Time Imaging With Simultaneous Use of Born and Rytov Approximations in Quantitative Microwave Holography." IEEE Transactions on Microwave Theory and Techniques 70, no. 3 (March 2022): 1896–909. http://dx.doi.org/10.1109/tmtt.2021.3131227.

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48

Rogers, A. E. E., R. Barvainis, P. J. Charpentier, and B. E. Corey. "Corrections for the effects of a radome on antenna surface measurements made by microwave holography." IEEE Transactions on Antennas and Propagation 41, no. 1 (1993): 77–84. http://dx.doi.org/10.1109/8.210118.

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Liu, Qinghe, Xianhui Xu, Weixing Xia, Renchao Che, Chen Chen, Qi Cao, and Jingang He. "Dependency of magnetic microwave absorption on surface architecture of Co20Ni80hierarchical structures studied by electron holography." Nanoscale 7, no. 5 (2015): 1736–43. http://dx.doi.org/10.1039/c4nr05547k.

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50

Flores-Tapia, Daniel, and Stephen Pistorius. "Real time breast microwave radar image reconstruction using circular holography: A study of experimental feasibility." Medical Physics 38, no. 10 (September 16, 2011): 5420–31. http://dx.doi.org/10.1118/1.3633922.

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