Photonic logical elements on the basis of the phase-synchronized arrays of СС- VCSEL

Authors

  • H. L. Lysenko Vinnytsia National Technical University
  • S. Ye. Tuzhanskyi Vinnytsia National Technical University
  • Medin Alravashdekh Vinnytsia National Technical University

Keywords:

laser with apeak constrained resonators, photonic logical element, interference

Abstract

The article is an inquiry into a possibility of creating photonic logic elements on the basis of spatial mode interference in phase-synchronized laser arrays with two vertically coupled optical resonators. Implementation of the suggested approach will allow creation of photonic logic elements that do not require photovoltaic and electron-optical transformations, which can completely replace the currently existing functional analogs of electronic and optoelectronic logical schemes. 

Author Biographies

H. L. Lysenko, Vinnytsia National Technical University

Ph.D., associate professor, professor of laser and optoelectronic equipment

S. Ye. Tuzhanskyi, Vinnytsia National Technical University

Ph.D., associate professor, assistant professor of laser and optoelectronic equipment

Medin Alravashdekh, Vinnytsia National Technical University

seeker of laser and optoelectronic technology

References

1. Исихара С. Оптические компьютеры: Новая эра науки. − М.: Наука, 1992. − 96 c.
2. Акаев А.А., Майоров С.А. Оптические методы обработки информации. − М.: Высшая школа, 1988. − 237 с.
3. Кожемяко В.П. Основы теории и схемотехники оптоэлектронных элементов и устройств логико-временного типа: Дис… д-ра техн. наук: 05.13.05. – К., 1988. – 519 с.
4. Лысенко Г.Л., Аль Равашдех Медин, Кобзаренко Р.Л. Оптический вычислительный модуль оптического компьютера / Г.Л. Лысенко, М. Аль Равашдех, Р.Л. Кобзаренко // Вісник ВПІ − 2003. –№6. − С. 360-364.
5. Евтихиев Н.Н., Каринский С.С., Мировицкий Д.И. Когерентно - оптические устройства передачи и обработки информации. − М., 1987. − 158 c.
6. Caulfield H.J. The logic of optics and the optics of logic / Caulfield H.J, Westphal J. // Information Sciences − 2004, Vol. 162, No. 1, pp. 21−33.
7. Koyama Fumio. Recent Advances of VCSEL Photonics // Journal of Lightwave Technology. − 2006, Vol. 24, No. 12, pp. 4502-4515.
8. Brunner M. Continuous-Wave Dual-Wavelength Lasing in a Two-Section Vertical-Cavity Laser / M. Brunner, K. Gulden, R. Hovel [и др.] / IEEE Phot. Techn. Lett. – 2000, No. 12, pp. 1316-1325.
9. Логгинов А.С. Двухчастотные лазеры со связанными вертикальными резонаторами / А.С. Логгинов, А.Г. Ржанов, Д.В. Скоров // Квантовая электроника. − 2006, Т. 36, № 6, с. 520−526.
10. Badilita V. Control of Polarization Switching in Vertical Coupled-Cavities Surface Emitting Lasers / V. Badilita, J.-F. Carlin, M. Ilegems [и др.] // IEEE Photonics Technology Letters. − 2004, No. 16, pp. 365-367.

Downloads

Abstract views: 266

Published

2021-01-13

How to Cite

[1]
H. L. Lysenko, S. Y. Tuzhanskyi, and M. Alravashdekh, “Photonic logical elements on the basis of the phase-synchronized arrays of СС- VCSEL”, Опт-ел. інф-енерг. техн., vol. 26, no. 2, pp. 42–47, Jan. 2021.

Issue

Section

Optical and Quantum Electronics in Computer and Intellectual Technologies

Metrics

Downloads

Download data is not yet available.

Most read articles by the same author(s)

1 2 > >>