Variation of the silicon optical parameters after rapid heat treatment

Authors

  • Victor M. Anishchik Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus
  • Valiantzina A. Harushka «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus
  • Uladzimir A. Pilipenka Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus; «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus
  • Vladimir V. Ponariadov Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus
  • Vitali A. Saladukha «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus
  • Anna A. Omelchenko Omelchenko «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus

Keywords:

rapid heat treatment, absorption coefficient, refractive index, solid-phase recrystallisation

Abstract

The results of the effect of rapid heat treatment on the optical characteristics of a silicon wafer surface in the region of the G-point in the Brillouin zone are presented for different types of silicon wafers conductivity, their doping level, the covalent radii of dopants and the crystallographic orientation of the wafer surface. The absorption coefficient and refractive index of the initial 100 mm diameter samples KDB-12 <100>, KDB-10 <111>, KDB-0.005 <100> and KES-0.015 <100>, underwent standard chemical-mechanical polishing, was measured on a Uvisel 2 ellipsometer (Horiba Scientific, France) in the spectral range 0.6–6.0 eV (200–2100 nm) before and after rapid heat treatment. The incidence angle of the light beam was 70° relative to the sample plane. It is shown that the changes in the optical characteristics of the silicon surface in the spectral region of the location of the G-point in the Brillouin zone after rapid heat treatment is due to a decrease in the surface deformation potential due to solid-phase recrystallisation of the mechanically damaged layer. It has been established that carrying out the rapid heat treatment of silicon samples with a high boron concentration leads to a more significant decrease in the refractive index and absorption compared with silicon with a low boron concentration, due to an increase in the depletion of the silicon surface with boron as a result of diffusion processes at the silicon – silicon dioxide interface.

Author Biographies

  • Victor M. Anishchik, Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus

    doctor of science (physics and mathematics), full professor; professor at the department of solid state physics, faculty of physics

  • Valiantzina A. Harushka, «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus

    leading engineer at the state center «Belmicroanalysis», branch «Belmicrosystems»

  • Uladzimir A. Pilipenka, Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus; «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus

    corresponding member of the National Academy of Sciences of Belarus, doctor of science (engineering), full professor; professor at the department of physics of semiconductors and nanoelectronics, faculty of physics, Belarusian State University, and deputy director for scientific development, state center «Belmicroanalysis», branch «Belmicrosystems», «Integral» – Holding Management Company

  • Vladimir V. Ponariadov, Belarusian State University, 4 Niezaliežnasci Avenue, Minsk 220030, Belarus

    PhD (physics and mathematics), docent; head of the training laboratory, department of solid state physics, faculty of physics

  • Vitali A. Saladukha, «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus

    doctor of science (engineering); general director

  • Anna A. Omelchenko Omelchenko, «Integral» – Holding Management Company, 121A Kazinca Street, Minsk 220108, Belarus

    engineer of the 1st category at the state center «Belmicroanalysis», branch «Belmicrosystems»

References

  1. Nalivaiko OYu, Saladukha VA, Pilipenka UA, Kolos VV, Belous AI, Lipinskaya TI, et al. Bazovye tekhnologicheskie protsessy izgotovleniya poluprovodnikovykh priborov i integral’nykh mikroskhem na kremnii. Tom 1 [Basic technological processes of fabrication of semiconductor devices and integrated circuits on silicon. Volume 1]. Turtsevich AS, editor. Minsk: Integralpoligraf; 2013. 703 p. Russian.
  2. Sze SM, editor. VLSI technology. New York: McGraw-Hill Book Company; 1983. 654 p. Russian edition: Pirs K, Adams A, Kats L, Tsai D, Seidel T, Makgillis D. Tekhnologiya SBIS. Kniga 1. Sze S, editor; Zverolovlev VM, Leikin VN, Petrov VB, Eidel’man BL, translators. Moscow: Mir; 1986. 404 p.

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Published

2021-09-29

How to Cite

(1)
Anishchik, V. M.; Harushka, V. A.; Pilipenka, U. A.; Ponariadov, V. V.; Saladukha, V. A.; Omelchenko, A. A. O. Variation of the Silicon Optical Parameters After Rapid Heat Treatment. Журнал Белорусского государственного университета. Физика 2021, No. 3, 81-85. https://doi.org/10.33581/2520-2243-2021-3-81-85.