E. Z. Omar
E. Z. Omar
lecturer of Experimental Physics - Faculty of Science - Mansoura University
Verified email at mans.edu.eg
Cited by
Cited by
Single-shot digital holography for fast measuring optical properties of fibers
M Agour, K El-Farahaty, E Seisa, E Omar, T Sokkar
Applied optics 54 (28), E188-E195, 2015
Adaptive spatial carrier frequency method for fast monitoring optical properties of fibres
TZN Sokkar, KA El-Farahaty, MA El-Bakary, EZ Omar, M Agour, ...
Applied Physics B 122 (5), 138, 2016
Characterization of axially tilted fibres utilizing a single-shot interference pattern
TZN Sokkar, KA El–Farahaty, MA El–Bakary, EZ Omar, M Agour
Optics and Lasers in Engineering 91, 144-150, 2017
A modified method for accurate correlation between the craze density and the optomechanical properties of fibers using pluta microscope
TZN Sokkar, KA El‐Farahaty, MA El‐Bakary, EZ Omar, AA Hamza
Microscopy research and technique 79 (5), 422-430, 2016
Optical birefringence and molecular orientation of crazed fibres utilizing the phase shifting interferometric technique
TZN Sokkar, KA El-Farahaty, MA El-Bakary, EZ Omar, AA Hamza
Optics & Laser Technology 94, 208-216, 2017
Online investigation of optical properties and craze propagation of drawn polypropylene fiber by using interferometric image analysis
TZN Sokkar, KA El-Farahaty, EA Seisa, EZ Omar, M Agour
Optics and Photonics Journal 4 (07), 165, 2014
Non-interferometric determination of optical anisotropy in highly-oriented fibres using transport intensity equation technique
TZN Sokkar, KA El-Farahaty, MA El-Bakary, MI Raslan, EZ Omar, ...
Optics and Lasers in Engineering 102, 10-16, 2018
In situ investigation of the effect of stretching speed and annealing conditions on the crazing of as-spun IPP fibres using Pluta polarizing interference microscope
TZN Sokkar, KA El-Farahaty, FE Hanash, EZ Omar
Optik 127 (1), 102-106, 2016
An immersion microscopy method for determining the optical anisotropy in fibres using transport intensity equation technique
EZ Omar, MA El-Bakary
Applied Physics B 125 (8), 1-12, 2019
Investigation and classification of fibre deformation using interferometric and machine learning techniques
EZ Omar
Applied Physics B 126 (4), 1-14, 2020
Dynamic investigations of opto-mechanical properties of iPP/TiO2 nanocomposites fibres using fringe analysis techniques
TZN Sokkar, MA El-Bakary, MI Raslan, NA AL-kalali, EZ Omar
Optik 212, 164683, 2020
A computational phase-shifting interferometric method using a single-shot microinterferogram and its application
EZ Omar
Optik 217, 164924, 2020
In situ investigation and detection of opto-mechanical properties of polymeric fibres from their digital distorted microinterferograms using machine learning algorithms
EZ Omar, TZN Sokkar, AA Hamza
Optics & Laser Technology 129, 106295, 2020
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