• Acquire
Hide
Journals →  Materialy Elektronnoi Tekhniki →  2011 →  #3 →  Back

MATERIALS SCIENCE AND TECHNOLOGY. SEMICONDUCTORS
ArticleName Investigation of MCT−based quantum well structures photoluminescence spectra
ArticleAuthor D. I. Gorn, A. V. Voitsekhovskii, I. I. Izhnin
ArticleAuthorData D. I. Gorn; A. V. Voitsekhovskii, Tomsk State University; I. I. Izhnin, NPO «Karat», Ukraine.
Abstract

Results of theoretical investigations of CdHgTe−based nanoheterostructures with single quantum wells (QW) with the well width a ≅ 12,5 nm have been presented. Calculations have been carried out for the energy−band diagram of this structure, locations of dimensional quantization levels, overlap integrals and velocities of radiative and nonradiative Auger recombination mechanisms for various types of interband transitions in the QW.
keywords Quantum well, MCT (CdxHg1−xTe), photoluminescence, energy−band diagram, dimensional quantization, lifetime, radiative recombination, Auger recombination, overlap integrals.
References

1. Monterrat, E. Optical spectroscopy of CdHgTe/CdTe quantum wells and superlattices / E. Monterrat, L. Ulmer, N. Magnea, H. Mariette, J. L. Pautrat, K. Kheng, F. Fuchs // Semicond. Sci. Technol. − 1993. − V. 8. − P. 261—265.
2. Lyubchenko, A. V. Fizicheskie osnovy poluprovodnikovoy IK−fotoelektroniki. Sovremennye tendentsii, novye materialy / A. V. Lyubchenko, E. A. Sal'kov, F. F. Sizov. − Kiev: Naukova dumka, 1984. − 256 s.
3. Sochinskii, N. V. Infrared photoluminescence imaging of infrared materials: HgCdTe/Cd(Zn)Te heterostructures / N. V. Sochinskii, V. N. Babentsov, P. J. McNally, A. Dundee, C. Corsi.// Infrared Physics & Technology. − 2004. − V. 46. P. 181—184.
4. Polla, D. L. Below band−gap photoluminescence of CdxHg1−xTe / D. L. Polla, R. L. Aggarwal // Appl. Phys. Lett. − 1984. − V. 44, N 8. − P. 775—776.
5. Mahavadi, K. K. Photoluminescence from CdTe/Hg1−yCdyTe/Hg1−xCdxTe separate confinement heterostructures / K. K. Mahavadi, M. D. Lange, J. P. Faurie, J. Nagle // Ibid. − 1989. − V. 54, N 25. − P. 2580—2582.
6. de Paula, A. M. Interband and intersubband absorption in HgCdTe multiple quantum wells / A. M. de Paula, C. R. M. de Oliveira // Phys. Rev. B. − 1999. − V. 59, N 15. − P. 10158—10164.
7. Bangert, E. The optical absorption coefficient of HgTe—CdTe superlattices – theory and experiment / E. Bangert, P. Boege, V. Latussek, G. Landwehr // Semicond. Sci. Technol. − 1993. − V. 8. − P. 99—101.
8. Vorob'ev, L. E. Opticheskie svoystva nanostruktur / L. E. Vorob'ev, E. L. Ivchenko, D. A. Firsov − SPb. : Nauka, 2001. − 188 s.
9. Gorn, D. I. Raschet zonnykh diagramm varizonnykh struktur KRT s uchetom izmeneniya elektronnogo srodstva pri izmenenii sostava / D. I. Gorn, S. N. Nesmelov, A. V. Voytsekhovskiy, A. P. Kokhanenko // Izv. vuzov: Fizika. − 2008. − № 9/3. − S. 134—137.
10. Bazhenov, N. L. Izluchatel'naya rekombinatsiya na getero-granitse II tipa v raz"edinennoy geterostrukture p−GaInAsSb / p−InAs pri impul'snom vozbuzhdenii / N. L. Bazhenov, G. G. Zegrya, M. P. Mikhaylova, K. D. Moiseev, V. A. Smirnov, O. Yu. Solov'eva, Yu. P. Yakovlev // Fizika i tekhnika poluprovodnikov. − 1997. − T. 31, № 6. − S. 658—661.
Language of full-text russian
Full content Buy
Back