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Theoretical analysis and optimization of 3D laser beam shaping

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
We report methodology of three-dimensional laser beam shaping. The analytical and numerical analysis is presented. A strategy for designing optical system involves the controlled application of aberrations which is realized by specific aspheric lens shaping. The goal is to obtain the desired optical power density distribution in space, which is optimal for selected application. The proposed method is discussed with regard to the design of optical transmitter for laser shooting simulator, however the developed methodology can be used for a number of other light shaping applications.
Rocznik
Strony
555--560
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
  • jwojtanowski@wat.edu.pl
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
autor
  • Institute of Optoelectronics, Military University of Technology, 2 Sylwestra Kaliskiego St., 00-908 Warsaw, Poland
Bibliografia
  • [1] M. Born, E. Wolf, Principles of Optics, Cambridge University Press, Cambridge, 2003.
  • [2] H. Sun, Laser Diode Beam Basics, Manipulations, and Characterizations, Springer, New York, 2012.
  • [3] A. Maląg, “Beam divergence and COD issues in double barrier separate confinement heterostructure laser diodes”, Bull. Pol. Ac.: Tech. 53 (2), 167-173 (2005).
  • [4] R. Joźwicki, Instrumental Optics, Scientific-Technical Publisher, Warsaw, 1970, (in Polish),
  • [5] T.H. Zachos and J.E. Ripper, “Resonant modes of GaAs junction lasers”, IEEE J. Quantum Electron. QE-5, 29-37 (1969).
  • [6] X. Zeng and A. Naqwi, “Far-field distribution of doubleheterostructure diode laser beams”, Appl. Opt. 32 (24), 4491-4494 (1993).
  • [7] S. Nemoto, “Experimental evaluation of a new expression for the far field of a diode laser beam”, Appl. Opt. 33 (27), 6387-6392 (1994).
  • [8] X. Qiang, H. Yiping, and C. Zhiwei, “Characteristic of laser diode beam propagation through a collimating lens”, Appl. Opt. 49 (3), 549-553 (2010).
  • [9] J.K. Jabczyński, Fundamentals of Instrumental Optics, Military University of Technology, Warsaw, 2006, (in Polish).
  • [10] A. Rogalski and Z. Bielecki, “Detection of optical radiation”, Bull. Pol. Ac.: Tech. 52 (1), 43-66 (2004).
  • [11] J. Petykiewicz, Wave Optics, Publishing House of Warsaw University of Technology, Warsaw, 1978, (in Polish).
  • [12] M. Sypek, “Light propagation in the Fresnel region. New numerical approach”, Optics Comm. 116, 43-48 (1995).
  • [13] http://www.mathworks.com/products/matlab/
  • [14] M. Zając, Aberration of Hybrid Optical Imaging Systems, Publishing House of Wroclaw University of Technology, Wroclaw, 2005, (in Polish).
  • [15] http://www.radiantzemax.com
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-34b5788d-435c-4288-8289-03fe39d02d6c
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