Publications

Chyeguide

Publications

Publications of Dr. Makino: Author and co-author of over 170 journal papers and conference presentations.

Major publications (first author)

[1] T. Makino, "Amplified spontaneous emission model for MQW DFB lasers", IEEE J. Quantum Electron, vol. pp. 33, pp.1010-1017, June 1997.

[2] T. Makino, "Side-mode suppression mechanism of gain-coupled DFB lasers with periodically etched quantum wells", IEEEPhoton. Technol. Lett., vol. 8, pp. 602-604, May 1996.

[3] T. Makino, "Analytical formulas for the optical gain of quantum wells", IEEEJ. Quantum Electron., vol. 32, pp. 493-501, Mar. 1996.

[4] T. Makino, "Threshold condition of DFB semiconductor lasers by the local-normal-mode transfer-matrix method", J. Lightwave Technol., vol. 12, pp. 2072-2099, Dec. 1994.

[5] T. Makino, H. Lu, and G. P. Li, "Transfer-matrix dynamic model of partly gain-coupled DFB lasers with a strained-layer MQW active grating", IEEEJ. Quantum Electron, vol. 30, pp. 2443-2448, Nov. 1994.

[6] T. Makino, "Transfer-matrix theory of the modulation and noise of multi-element semiconductor lasers", IEEEJ. Quantum Electron., vol. 29, pp. 2962-2770, Nov. 1993.

[7] T. Makino, "Spontaneous emission model of surface-emitting DFB semiconductor lasers", IEEEJ. Quantum Electron., vol. 29, pp. 12-22, Jan. 1993.

[8] T. Makino, "Transfer-matrix formulation of spontaneous emission noise of DFB semiconductor lasers", J. Lightwave Technol., vol. 9, pp. 84-91, 1991.

[9] T. Makino and J. Glinski, "Transfer matrix analysis of the amplified spontaneous emission of semiconductor laser amplifiers", IEEE J. Quantum Electron, vol. 24, pp. 1507-1518, Aug. 1988.

[10] T. Makino, "Effects of radiation loss on the performance of second-order DFB semiconductor lasers", IEEE J. Quantum Electron., vol. QE-24, pp. 73-82, Jan. 1988.

Book Chapters

[1] T. Makino, "Transfer matrix method with applications to distributed feedback optical devices", PIER 10, Progress in Electromagnetic Research edited by J. A. Kong, Methods for Modeling and Simulation of Guided-Wave

Optoelectronic Devices: Part I: Modes and Coupling, edited by W. P. Huang, 1995.

[2] T. Makino, "1.55 um high speed partly gain-coupled DFB lasers with periodically etched strained-layer quantum wells", in International Journal of High Speed Electronics and Systems, vol. 8, edited by S. Gurevich, 1998.

Patents

More than 20 patents including 10 US patents, Japan patents, and pending patents.