Optoelectronic Materials, Device Structures, and Waveguides

Publications of Andrei Sirenko (1989-2006)


“Micro-beam high-resolution x-ray diffraction in strained InGaAlAs-based multiple quantum well laser structures grown selectively on masked InP substrates”,

Journal of Applied Physics, 97, 063512 (2005).                                                                                                           (pdf)


“Toward a precise localization of Zinc in InP crystal lattice using novel nondestructive approach of X-ray Standing Wave Technique”,

Proceedings of the 11th European Workshop on MOVPE, Lausanne June 5th-8th (2005), pp. 209-210 (D04).    (pdf)


“Deep analysis of Selective area growth InGaAlAs SAG MQWs structures using micro beam high resolution X-ray diffraction and micro photoluminescence”, Proceedings of the 11th European Workshop on MOVPE, Lausanne June 5th-8th (2005), pp. 127-128 (B03).     (pdf)


"Application of X-ray Standing Wave (XSW) technique for studies of Zn incorporation in InP epilayers",

Computational Materials Science, 33, 132-135 (2005).                                                                                                (pdf)


“ Microbeam high-resolution diffraction and x-ray standing wave methods applied to semiconductor structures ”,  

J. Phys. D: Appl. Phys. 37, L1–L4 (2004).                                                                                                                    (pdf)


“Micro-X-ray fluorescence and micro photoluminescence in InGaAsP and InGaAs layers obtained by Selective Area Growth”,

 Journal of Crystal Growth,  253, 38 (2003).                                                                                                                 (pdf)


“10 Gb/s transmitter based on a directly modulated InGaAlAs laser operating up to 126 ºC ”,

Electronics Letters, 39 (23): 1653-1654 NOV 13 (2003).                                                                                               (pdf)


“Photonic Integrated Receiver For 40Gbit/s Transmission”, accepted for publication in

Electronics Letters, 38 (20): 1196-1197 SEP 26 (2002).                                                                                                (pdf)


“40-Gb/s Tandem Electroabsorption Modulator”,

 IEEE Photon. Technol. Lett., 14, 27, (2002).                                                                                                                (pdf)


“40 Gb/s tandem electro-absorption modulator”
Optical Fiber Communication Conference and Exhibit, 2001. OFC 2001 ,

Volume: 4 , 2001, Page(s): PD14 -P1-3 vol.4.                                                                                                               (pdf)