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Journal articles on the topic 'Holographic video microscopy'

Author: Grafiati
Published: 28 June 2021
Last updated: 10 February 2022

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1

Cheong, Fook Chiong, Bo Sun Rémi Dreyfus, Jesse Amato-Grill, Ke Xiao, Lisa Dixon, and David G. Grier. "Flow visualization and flow cytometry with holographic video microscopy." Optics Express 17, no. 15 (July 16, 2009): 13071. http://dx.doi.org/10.1364/oe.17.013071.

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2

Cheong, Fook Chiong, Bhaskar Jyoti Krishnatreya, and David G. Grier. "Strategies for three-dimensional particle tracking with holographic video microscopy." Optics Express 18, no. 13 (June 9, 2010): 13563. http://dx.doi.org/10.1364/oe.18.013563.

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3

Lee, Sang-Hyuk, Yohai Roichman, Gi-Ra Yi, Shin-Hyun Kim, Seung-Man Yang, Alfons van Blaaderen, Peter van Oostrum, and David G. Grier. "Characterizing and tracking single colloidal particles with video holographic microscopy." Optics Express 15, no. 26 (December 20, 2007): 18275. http://dx.doi.org/10.1364/oe.15.018275.

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4

Cheong, F. C., K. Xiao, and D. G. Grier. "Technical note: Characterizing individual milk fat globules with holographic video microscopy." Journal of Dairy Science 92, no. 1 (January 2009): 95–99. http://dx.doi.org/10.3168/jds.2008-1361.

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5

Chen, Jun, Tsukasa Hirayama, Guanming Lai, Takayoshi Tanji, Kazuo Ishizuka, and Akira Tonomura. "Video-rate electron-holographic interference microscopy using a liquid-crystal panel." Optical Review 1, no. 2 (January 1994): 304–7. http://dx.doi.org/10.1007/bf03254892.

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6

Krishnatreya, Bhaskar Jyoti, Arielle Colen-Landy, Paige Hasebe, Breanna A. Bell, Jasmine R. Jones, Anderson Sunda-Meya, and David G. Grier. "Measuring Boltzmann's constant through holographic video microscopy of a single colloidal sphere." American Journal of Physics 82, no. 1 (January 2014): 23–31. http://dx.doi.org/10.1119/1.4827275.

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7

Sun, Hongyue, Bing Song, Hongpai Dong, Brian Reid, Michael A. Player, John Watson, and Min Zhao. "Visualization of fast-moving cells in vivo using digital holographic video microscopy." Journal of Biomedical Optics 13, no. 1 (2008): 014007. http://dx.doi.org/10.1117/1.2841050.

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8

Ikeda, Toyokazu, Haruka Eitoku, and Yasuyuki Kimura. "AC electrophoretic mobility of individual microscale colloidal particles measured using holographic video microscopy." Applied Physics Letters 114, no. 15 (April 15, 2019): 153703. http://dx.doi.org/10.1063/1.5088723.

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9

Cheong, Fook C., and David G. Grier. "Rotational and translational diffusion of copper oxide nanorods measured with holographic video microscopy." Optics Express 18, no. 7 (March 15, 2010): 6555. http://dx.doi.org/10.1364/oe.18.006555.

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10

Petruck, Paul, Rainer Riesenberg, and Richard Kowarschik. "Partially coherent light-emitting diode illumination for video-rate in-line holographic microscopy." Applied Optics 51, no. 13 (April 30, 2012): 2333. http://dx.doi.org/10.1364/ao.51.002333.

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11

Scholz, Gregor, Shinta Mariana, Iqbal Syamsu, Agus Budi Dharmawan, Torben Schulze, Kai Mattern, Philipp Hörmann, et al. "Continuous Live-Cell Culture Monitoring by Compact Lensless LED Microscopes." Proceedings 2, no. 13 (December 5, 2018): 877. http://dx.doi.org/10.3390/proceedings2130877.

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A compact lensless microscope comprising a custom-made LED engine and a CMOS imaging sensor has been developed for live-cell culture imaging inside a cell incubator environment. The imaging technique is based on digital inline-holographic microscopy, while the image reconstruction is carried out by angular spectrum approach with a custom written software. The system was tested with various biological samples including immortalized mouse astrocyte cells inside a petri dish. Besides the imaging possibility, the capability of automated cell counting and tracking could be demonstrated. By using image sensors capable of video frame rate, time series of cell movement can be captured.
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12

Cheong, Fook Chiong, Chui Ching Wong, YunFeng Gao, Mui Hoon Nai, Yidan Cui, Sungsu Park, Linda J. Kenney, and Chwee Teck Lim. "Rapid, High-Throughput Tracking of Bacterial Motility in 3D via Phase-Contrast Holographic Video Microscopy." Biophysical Journal 108, no. 5 (March 2015): 1248–56. http://dx.doi.org/10.1016/j.bpj.2015.01.018.

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13

Chen, Jun, Tsukasa Hirayama, Takayoshi Tanji, Kazuo Ishizuka, and Akira Tonomura. "Video-rate electron-holographic interference microscopy and its application to dynamic observation of electromagnetic fields." Optics Communications 110, no. 1-2 (August 1994): 33–40. http://dx.doi.org/10.1016/0030-4018(94)90167-8.

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14

Pitkäaho, Tomi, Ville Pitkäkangas, Mikko Niemelä, Sudheesh K. Rajput, Naveen K. Nishchal, and Thomas J. Naughton. "Space-variant video compression and processing in digital holographic microscopy sensor networks with application to potable water monitoring." Applied Optics 57, no. 22 (July 27, 2018): E190. http://dx.doi.org/10.1364/ao.57.00e190.

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15

Grexa, István, Tamás Fekete, Judit Molnár, Kinga Molnár, Gaszton Vizsnyiczai, Pál Ormos, and Lóránd Kelemen. "Single-Cell Elasticity Measurement with an Optically Actuated Microrobot." Micromachines 11, no. 9 (September 22, 2020): 882. http://dx.doi.org/10.3390/mi11090882.

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A cell elasticity measurement method is introduced that uses polymer microtools actuated by holographic optical tweezers. The microtools were prepared with two-photon polymerization. Their shape enables the approach of the cells in any lateral direction. In the presented case, endothelial cells grown on vertical polymer walls were probed by the tools in a lateral direction. The use of specially shaped microtools prevents the target cells from photodamage that may arise during optical trapping. The position of the tools was recorded simply with video microscopy and analyzed with image processing methods. We critically compare the resulting Young’s modulus values to those in the literature obtained by other methods. The application of optical tweezers extends the force range available for cell indentations measurements down to the fN regime. Our approach demonstrates a feasible alternative to the usual vertical indentation experiments.
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16

Hahn, Joonku, Sehoon Lim, Kerkil Choi, Ryoichi Horisaki, and David J. Brady. "Video-rate compressive holographic microscopic tomography." Optics Express 19, no. 8 (March 31, 2011): 7289. http://dx.doi.org/10.1364/oe.19.007289.

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17

Shoydin, S. A. "Synthesis of holograms received by a communication channel." Computer Optics 44, no. 4 (August 2020): 547–51. http://dx.doi.org/10.18287/2412-6179-co-694.

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A method for the synthesis of holograms that reconstruct a 3D image using two 2D images, including a topographic map of the surface of a 3D object and photographs of the texture of its surface obtained using coherent and incoherent radiation is proposed. The method is suitable for transmitting information about a 3D object via a communication channel at a distance and subsequent synthesis of holograms at a distance from the holography object. It can be used in augmented reality devices, when creating holographic cameras and 3D video cameras, in 3D projectors and microscopes, devices with a synthesized aperture. The proposed method for the remote hologram synthesis is suitable for reproducing 3D holographic images of distant objects at different parts of the electromagnetic spectrum. Examples of 3D image restoration in the infrared spectral range are given. The method is also suitable for the synthesis of holograms in the UV, THz, and even radio range.
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18

Chernoff, Donald A., Jason D. Lohr, Douglas Hansen, and Michael Lines. "High-precision calibration of a scanning-probe microscope (SPM) for manufacturing applications." Proceedings, annual meeting, Electron Microscopy Society of America 54 (August 11, 1996): 868–69. http://dx.doi.org/10.1017/s0424820100166804.

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Introduction. For ordinary SPM (Scanning Probe Microscope) work, accuracy of XYZ length measurements of about 5% is acceptable. This is accomplished by periodic calibration checks (and adjustments, if required). Measurement of critical dimensions such as feature width and spacing on integrated circuits or compact discs requires much higher accuracy. For example, the new DVD (digital video disc) standard calls for a mean track pitch of 740 nm with a maximum allowable jitter (range) of 30 nm. To achieve a range of 30 nm, the standard deviation should be 10 nm or less. According to the gage-maker's rule, the measurement tool should be 4x more precise than the object being measured, so we need a standard deviation of 2.5 nm. This report describes the combined use of a new type of calibration standard and new software to meet these requirements.Materials. Recently, MOXTEK has produced 1- and 2-dimensional holographic gratings as calibration standards for use with SEMs (Scanning Electron Microscopes).
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19

Hao, Y. L., J. Iragorry, and Y. X. Tao. "Frost-Air Interface Characterization Under Natural Convection." Journal of Heat Transfer 127, no. 10 (April 5, 2005): 1174–80. http://dx.doi.org/10.1115/1.2033901.

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Surface frosting from atmospheric humidity under natural convection is encountered in conventional refrigeration systems, cryogenic surgery, and cryogenic stress relief of die casting metal forming applications. To advance the predictability of frost initiation and formation processes, this study reports a microscopic analysis of frost growth on a flat surface during the onset period of freezing when subcooled droplets are formed and changed to the ice phase. The onset of freezing is quantified by the mean droplet size and ice particle fractions at a critical time (when water droplet freezing point is reached) with the aid of a video microscope. An early-stage frost formation model with effective parameters is demonstrated to provide the important information for the transition to the steady-growth model. The model results are compared with the measured air-frost surface temperatures at different cooling and ambient boundary conditions, using holographic interferometry. The comparison between the model prediction and experimental results demonstrates the sensitivity of effective parameters in simulating the frost thickness and air-frost interface temperature.
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20

Brown, N., M. R. Jackson, and R. M. Parkin. "Automatic gravure print feature determination at production speeds." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 217, no. 8 (August 1, 2003): 1101–10. http://dx.doi.org/10.1177/095440540321700807.

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This paper describes the development of a non-contact system for measuring the colour of printed material at web speeds, in addition to gravure-printed dot feature recognition. The system proposed uses a non-contact spectrophotometer based on a holographic grating, in conjunction with a conventional monochrome area scan camera, from which colour spectral data are extracted, while a xenon flash is used to illuminate colour samples. Dot features are captured by a magnification lens, in conjunction with a progressive scan camera. Software and hardware details of the system are given, together with the underlying mathematics for colour space conversion and measurement. Conversion equations from X, Y, Z chromaticity coordinates to the RGB system are presented, and also equations to convert from the L* a* b* colour space to X, Y, Z chromaticity coordinates. Experimental results are presented whereby the non-contact spectral system is shown to perform to a colour tolerance exceeding that of conventional colour video systems, and where performance of the dot feature system is comparable with traditional static examination methods using a microscope.
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