METAL SEMICONDUCTOR JUNCTION SCHOTTKY BARRIER
##plugins.themes.bootstrap3.article.sidebar##
##plugins.themes.bootstrap3.article.main##
Annotatsiya
The Schottky barrier diode, formed by the metal-semiconductor junction, exhibits non-linear diode characteristics and offers rapid response due to unipolar carrier transport. In an ideal Schottky barrier, the height of the barrier is determined by the difference between the semiconductor’s conduction band and the metal’s Fermi level. This research provides insights into the behavior of the Schottky barrier diode, paving the way for applications in fast-switching electronics.
##plugins.themes.bootstrap3.article.details##
Foydalaniladigan adabiyotlar
Ivchenko E.L. Optical spectroscopy of semiconductor nanostructures // E.L. Ivchenko.-Harrow (UK) : Alpha Science, 2005.-350 p.
Vorobyev L.Ye., Ivchenko E.L., Firsov D.A., Shalygin V.A. Optical properties of nanostructures. S.-Pb. Noahaka. 2001. -192 p.
Petrov A.G., Shik A. Phys.Rev. -1993V.48. P.11883.
Golub L.E., Ivchenko E.L., Rasulov R.Ya. FTP. -1995V. 29. P. 1093.
Ivchenko E.L., Rasulov R.Ya. Symmetry and real band structure of a conductor. Tashkent. Fan. -1989. –126 р.
Rasulov, V. R., Rasulov, R. Y., Axmedov, B. B., Muminov, I. A., & Nematov, X. (2020). TWO-PHOTONE LINEAR-CIRCULAR DICHROISM IN NARROW-ZONE SEMICONDUCTORS. European Science Review, (7-8), 54-59.
Rasulov, R. Y., Rasulov, V. R., Kuchkarov, M. K., & Eshboltaev, I. M. (2023). Interband Multiphoton Absorption of Polarized Radiation and Its Linear Circular Dichroism in Semiconductors in the Kane Approximation. Russian Physics Journal, 65(10), 1746-1754.
Rasulov, V. R., Rasulov, R. Y., Mamatova, M. A., & Gofurov, S. Z. U. (2022). GENERALIZED MODEL FOR THE ENERGY SPECTRUM OF ELECTRONS IN TUNNEL-COUPLED SEMICONDUCTOR QUANTUM WELLS. EPRA International Journal of Multidisciplinary Research (IJMR), 8(12), 1-5.
Ахмедов, Б. Б., & Муминов, И. А. (2021). УРАВНЕНИЯ ШРЕДИНГЕРА ДЛЯ ДВУМЕРНОГО ВОЛНОВОГО ВЕКТОРА. EDITOR COORDINATOR, 537.
Yavkachovich, R. R., Ogli, M. A. A., Umidaxon, R., Makhliyo, M., & Arabboyevich, M. I. (2019). Agency of surface recombination on volt-ampere characteristic of the diode with double injection. European science review, (11-12), 70-73.
Расулов, В. Р., Расулов, Р. Я., Муминов, И. А., Эшболтаев, И. М., & Кучкаров, М. (2021). МЕЖДУЗОННОЕ ТРЕХФОТОННОЕ ПОГЛОЩЕНИЕ В InSb.
Rozikov, J., Akhmedov, B., Muminov, I., & Ruziboev, V. (2019). DIMENSIONALLY QUANTIZED SEMICONDUCTOR STRUCTURES. Scientific and Technical Journal of Namangan Institute of Engineering and Technology, 1(6), 58-63.
Rustamovich, R. V., Yavkachovich, R. R., Forrux, K., & Arabboyevich, M. I. (2021). THEORETICAL ANALYSIS OF MULTIPHOTON INTERBAND ABSORPTION OF POLARIZED LIGHT IN CRYSTALS WITH A COMPLEX ZONE (PART 1). European science review, (3-4), 48-51.
Muminov, I. A., & Muminova, M. (2023). QATTIQ JISMLARNING KRISTALL PANJARALARI. Oriental renaissance: Innovative, educational, natural and social sciences, 3(3), 1314-1317.
Arabboyevich, M. I., & Nabijon o‘g, S. U. B. (2022). QATTIQ JISM KRISTALLARINI O’STIRISH NAZARIYASI. Scientific Impulse, 1(3), 696-698.
Расулов, Р. Я., Расулов, В. Р., Ахмедов, Б. Б., & Муминов, И. А. (2022). Межзонный двухфотонный линейно-циркулярный дихроизм в узкозонных полупроводниках. «Узбекский физический журнал», 24(1), 19-26.
Arabboyevich, M. I., & Alijon o’g’li, M. A. (2023). IDEAL GAZLARDA KVANT STATISTIKASI TAHLILI. PEDAGOGICAL SCIENCES AND TEACHING METHODS, 2(20), 235-237.