Dr. Vladislav Shteeman

Dr. Vladislav Shteeman

Dr. Vladislav Shteeman

EM424
יום א' 11:40-12:40 בתיאום מראש במייל
מחלקה: Electrical and Electronic Engineering
תפקיד נוכחי: Senior Lecturer, יועץ אקדמי לסטודנטים ששם המשפחה שלהם ט'-מ'

Education :

Ph.D.2011, Electrical Engineering, Faculty of Engineering, Department of Electrical Engineering – Physical Electronics, Tel Aviv University, Tel Aviv, Israel

M.Sc.2001, Physics, Faculty of Physics, Technion – Israel Institute of Technology, Haifa, Israel

Dipl.-Ing.1995, Physics, Faculty of Applied Physics and Microelectronics, Nijnii Novgorod State University, Nijnii Novgorod, Russia

Research Interests
  • 1. Photonic crystals
  • 2. Coupled-mode theory of parallel waveguides and its application to photonic crystal devices
  • 3. Numerical and analytical methods of analysis of large-scale photonic crystal device
  • 4. Integrated and guided wave optics
Courses
  • 1. Semiconductor Devices
  • 2. Advanced Laboratory for Devices Characterization
  • 3. Electro-optical components (theoretical background)
  • 4. Introduction to electro-optics

Refereed Papers

1. E. Smith, V. Shteeman, A. Hardy, Analytical Approximation for Photonic Array Modes in 2D Photonic Superlattices (submitted for publication)

2. L. Giladi, E. Smith, V. Shteeman, A. Hardy, Application of coupled-mode formalism to the analysis of holey photonic crystals (submitted for publication)

3. E. Smith, V. Shteeman, A. Hardy, Analysis of optical characteristics of holey photonic crystal devices with extended coupled-mode formalism (submitted for publication)

4. E. Smith, V. Shteeman, A. Hardy, Analysis of defect-based holey photonic crystal devices with coupled-mode formalism, (submitted for publication)

5. E. Smith, V. Shteeman, A. Hardy, Analytical Approximation for Photonic Array Modes in 2D Photonic Crystal Lattices, Applied Optics, Vol. 55, No. 15, pp. 3942 – 3951 (2016)

6. E. Smith, V. Shteeman, A. Hardy, Analytical Approximation for Photonic Array Modes in 1D Photonic Crystal Superlattices , Applied Optics, Vol. 55, No. 10, pp. 2819 – 2826 (2016)

7. E. Smith, V. Shteeman, A. Hardy, Analytical Approximation for Photonic Array Modes in One-Dimensional Photonic Crystal Devices, Applied Optics, Vol. 52, No. 8, pp. 1743 – 1751 (2013)

8. V. Shteeman, A. Hardy, Analysis of Advanced Photonic Devices with Time-Dependent Coupled Mode Equations, Optical Engineering, Vol. 51, No. 5, pp. 054001-1 – 054001-6 (2012)

9. V. Shteeman, A. Hardy, Time-Dependent Coupled Mode Analysis of Parallel Waveguides, Journal of the Optical Society of America B, Vol. 27, No. 4, pp. 735-741 (2010)

10. V. Shteeman, A. Hardy, E. Kapon et al, Analysis of Photonic Crystals with Defects Using Coupled-mode Theory, Journal of the Optical Society of America B, Vol. 26, No. 6, pp. 1248-1255 (2009)

11. V. Shteeman, A. Hardy, E. Kapon et al, Extension of Coupled Mode Analysis to Infinite Photonic Superlattices, IEEE Journal of Quantum Electronics, Vol. 44, No. 9, pp.826-833 (2008)

12. V. Shteeman, A. Hardy, E. Kapon et al, Extension of Coupled Mode Analysis to Infinite Arrays of Identical Waveguides for Photonic Crystals Applications, Institute of Electrical and Electronics Engineers (IEEE) Journal of Quantum Electronics, Vol. 43, No. 3, pp. 215-224 (2007)

13. V. Shteeman, A. Forchel et al, Near-field Mapping of the Electromagnetic Field in Confined Photon Geometries, Physical Review B, Vol. 66, pp. 115302-1 – 115302-8 (2002)

14. V.  Shteeman, S. G. Lipson et al, Surface Plasmon Resonance Phase Imaging, Applied Physics Letters, Vol. 76, No. 13, pp. 1665-1667 (2000)

Books

Coupled-mode theory, co-author with Prof. A. A. Hardy (in preparation for publication) (English).

 

Conference Proceedings and Abstracts

 

1. E. Smith, L. Giladi, V. Shteeman, A. Hardy, Analysis of optical characteristics of holey photonic crystals with extended coupled-mode formalism. Proc. 2016 IEEE International Conference on the Science of Electrical Engineering (ISCEE)  (English)

2. E. Smith, L. Giladi, V. Shteeman, A. Hardy, Analytical Approximation for Photonic Array Modes in 2D Photonic Devices. Proc. 2016 IEEE International Conference on the Science of Electrical Engineering (ISCEE)  (English)

3. L. Giladi, E. Smith, V. Shteeman, E. Kapon, A. Hardy, Coupled-mode analysis of holey photonic crystal fibers. Proc. IEEEI 2014, 2014 IEEE 28th Convention of Electrical and Electronics Engineers in IsraelBest student paper award.

4. E. Smith, L. Giladi, V. Shteeman, E. Kapon, A. Hardy, Analytical approximation for photonic array modes in large 1D photonic crystal devices. Proc. IEEEI 2014, 2014 IEEE 28th Convention of Electrical and Electronics Engineers in Israel.

5. E. Smith, V. Shteeman, E. Kapon, A. Hardy, Fast approximate derivation of photonic supermodes in one-dimensional photonic crystal devices. Proc. IEEEI 2012, 2012 IEEE 27th Convention of Electrical and Electronics Engineers in Israel (English), pp. 1-5 (2012)

6. E. Smith, V. Shteeman, A. Hardy, Time-dependent coupled mode analysis of advanced photonic micro devices. Proc. IEEEI 2012, 2012 IEEE 27th Convention of Electrical and Electronics Engineers in Israel (English), pp. 1-5 (2012)

7. V. Shteeman, A. Hardy, Analysis and design of large-sized 2D photonic crystal devices. Proc. IEEEI 2008, 2008 IEEE 25th Convention of Electrical and Electronics Engineers in Israel (English), pp. 694-698 (2008)

Academic Appointments

2014-present  Senior Lecturer, ORT Braude College, Department of Electrical and Electronic Engineering

2011-2014  Lecturer, ORT Braude College, Department of Electrical and Electronic Engineering

2009-2011  Adjunct Lecturer, ORT Braude College, Department of Electrical and Electronic Engineering

Teaching Experience

 
ORT Braude College of Engineering:
  • Undergraduate Courses:
    Semiconductor Devices
    Advanced Laboratory for Characterization of Semiconductor Devices
    Introduction to Electrical Engineering
    Introduction to Electro-Optics
    Electo-optical components (theoretical background)
Electro-optics

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