1- Refractive Index Profile of Polyethylene Fiber Using Interactive Multiple-Beam Fizeau Fringe Analysis
Hamza A A, Sokkar T Z N, Mabrouk M A, and El-Morsy M A, J.Appl. Poly.Sci., Vol. 77, 2000, 3099-3106.
2- Multiple-Beam Fizeau Fringe-Pattern Analysis Using Fourier Transform Method for Accurate Measurement of Fiber Refractive Index Profile of Polymer Fiber.
El-Morsy M A ,Yatagai T, Hamza A A , Mabrouk M A, and Sokkar,T Z N ,J.Appl. Poly. Sci., Vol.85(3), 2002, 475-484.
3- Automatic refractive index profiling of fibers by phase analysis method using Fourier transform
El-Morsy M A ,Yatagai T, Hamza A A , Mabrouk M A, and and SokkarT Z N,Opt. and Las. in Eng., Vol. 38(6),2002,509-525.
4- A subfringe integration method for multiple-beam Fizeau fringe analysis
El-Morsy M A, Harada K, Itoh M, and Yatagai T, , Opt.and Las. Tech, Vol. 35, 2003 223 – 232.
5- Holographic Recording and Control of Diffraction Efficiency Using Photoinduced Surface Deformation on Azo-Polymer Films
Harada k, Inoue H, El-Morsy M A, Itoh M, Umegaki S, and Yatagai T, Jpn J.Appl. Phys., Vol. 41, 2002, 1851-1854.
6- Detecting and avoiding the necking deformation along polypropylene fibre axis using the fringe pattern analysis of multiple-beam microinterferometry
A.A. Hamza_, T.Z.N. Sokkar, K.A. EL-Farahaty, M.A.M. EL-Morsy, H.M. EL-Dessouky, Optics & Laser Technology, Vol 37, 2005, 532– 540
7- Automatic Fringe Analysis of Two-Beam Interference Patterns for easurement the Refractive Index and Birefringence Profiles of Fibres
T.Z.N. Sokkar, H.M. El Dessouky, M A Shams-Eldin, El-Morsy M A, Opt. and Las. in Eng, Vol. 45, 2007, 431-441.
8- Geometrical and Optical Properties of Irregular Fibers as a Function of Draw Ratio.
A.A.Hamza, T.Z.N.Sokkar, M.A. EL-Bakary, M. A. El-Morsy and A. M. Ali ,accepted to published in International journal of polymer, 2007.
9- Automatic fringe analysis of the induced anisotropy of bent optical fibres
T.Z.N. Sokkar , M.A. El-Morsy , H.H. Wahba, Optics Communications 281 (2008) 1915–1923.
10- Automatic determination of refractive index profile, sectional area and shape of fibers having regular and/or irregular transverse sections.
A A Hamza, T. Z. N Sokkar , M. A El-Morsy. and M. A. E Nawareg, Optics & Laser Technology 40 (2008) 1082–1090.
11- A novel video-mechanical (VOM) device for studying the effect of stretching speed on the optical and structural properties of fibres.
T.Z.N.Sokkar, M M El-Tonsy, M.A. EL-Bakary, M. A. El-Morsy and A. M. Ali, Opt. & Las. Tech., Article in press.
12- Interferometric Testing and Description of Polarization Ray Tracing in Multi-layer Thin Films.
A M Sadik, M A El-Morsy, M A Shams-Eldin, J.pure & Appl. Opt., 10(2008), 115003(6pp).
13- Automatic determination of refractive index profile of fibres having regular and/or irregular transverse sections with considering the refraction of light rays by the fibre.
A A Hamza, T. Z. N Sokkar , M. A El-Morsy. and M. A. E Nawareg, Optics Communications 282 (2009) 27-35.
14- Determination of the Optical properties of Bent Optical Fibre using Fringe Pattern Analysis.
A A Hamza, T.Z.N. Sokkar , M.A. El-Morsy , H.H. Wahba, submit to publish in Optics Communications
15- Determining the Optical and Geometrical Properties of Irregular Fibres during the Dynamic Cold Drawing process
A.A.Hamza, T.Z.N.Sokkar, M.A. EL-Bakary, M. A. El-Morsy and A. M. Ali, accepted to publish in J. appl. Pol. Sci.
16- Investigation of Multiple-Beam Fizeau Interferogram Using Fourier Transform Method of Fringe Pattern Analysis.
M.A. El-Morsy submit to publish in J. of Optic