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Title | Gunn Diodes Based on Graded InGaP-InPAs |
Authors |
Storozhenko, I.P.
Kaydash, M.V. |
ORCID | |
Keywords |
Gunn diode intervalley electron transfer graded semiconductor output power domain generation efficiency temperature mode terahertz electronics microwave generation indium phosphide indium arsenide gallium phosphide InGaPAs |
Type | Article |
Date of Issue | 2018 |
URI | http://essuir.sumdu.edu.ua/handle/123456789/70911 |
Publisher | Sumy State University |
License | Copyright not evaluated |
Citation | Storozhenko, I. P. Gunn Diodes Based on Graded InGaP-InPAs [Текст] / I.P. Storozhenko, M.V. Kaydash // Журнал нано- та електронної фізики. - 2018. - Т.10, № 4. - 04014. - DOI: 10.21272/jnep.10(4).04014. |
Abstract |
Nowadays, graded semiconductors attract developers' interest as prospective material which can improve the interaction of the electric field and the electrons in the devices operating on the intervalley electron transfer effect. This effect increases the efficiency and power output of the generation of current oscillations in Gunn diodes. To obtain the best effect graded semiconductor must be optimal by the dependence of the energy gap between the nonequivalent valleys of the conduction band on the coordinate. This paper deals with the results of the investigation of Gunn diodes operation based on graded InGaP-InPAs by means of the temperature model of intervalley electron transfer in graded semiconductors. The paper presents the results of the numerical experiments on efficient generation of electromagnetic waves in the range from 18 to 80 GHz using graded InxGa1 – xP-InPyAs1 – y Gunn diodes with the active region length of 2.5 m and concentration of ionized impurities therein of 1016 cm – 3. Our findings are the dependences generation efficiency and output power on frequency for different distributions of GaP and InAs in InxGa1 – xP-InPyAs1 – y. We have compared obtained results with similar AlxGa1 – xAs-GaAs-Ga1 – yInyAs-diodes. The maximal obtained power in InxGa1 – xP-InPyAs1 – y-diode is 11.3 kW-cm – 2 at a frequency of 40 GHz with an efficiency of 10.2 % at x = 0.6 and y = 0.6. |
Appears in Collections: |
Журнал нано- та електронної фізики (Journal of nano- and electronic physics) |
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