Dr. Mark Auslender

Publications on Grating Structures.

Journal Papers

1. Hava, M.Auslender and D. Rabinovic, 
   "The Operator Approach in Electromagnetic Coupled Wave Calculations of Lamellar 
   Gratings: Infr. Optical Properties of  Intrinsic Silicon Gratings,"  
   Appl. Opt. 33, 4807-4814 (1994).

2. S. Hava and M. Auslender, "Silicon Grating-Based Mirror for 1.3um Polarized Beams:
   MATLAB - Aided design,"  Appl. Opt. 34, 1053-1058 (1995).
   
3. S. Hava, M. Auslender, P.J. Coetzer,  P.L. Swart  and B.M. Lacquet,  
   "IR Transmission and  Reflection Study of Lamellar Silicon Grating-Wafer Structures," 
   Infr. Phys.& Technol. 36, 639-647 (1995).

4. M. Auslender and S. Hava, “
   "Zero Infr. Reflectance Anomaly in Doped Silicon Gratings. I.From Antireflection
   to Total Absorption,”" Infr. Phys. & Technol. 36, 1077-1088 (1995).

5. M. Auslender, S. Hava and J.N. Zemel, "Zero Infr. Reflectance Anomaly in Doped 
   Silicon Gratings. II. Electric Field Amplitude Distributions Across 
   the Grating Profile," Infr. Phys. &  Technol. 37, 367-377 (1996). 

6. S. Hava, M. Auslender and J.N. Zemel, 
   "Zero Infr. Reflectance Anomaly in Doped Silicon Gratings.
   III. Electric Field Phase And Energy Flux Distributions Across the Grating Profile,"
   Infr. Phys. & Technol. 37, 565-573 (1996).

7. M. Auslender and S. Hava, "“Scattering-Matrix Propagation Algorithm in Full-Vectorial 
   Optics of Multilayer Grating Structures,"” Opt. Lett. 21, 1765-1767 (1996).

8. M. Auslender, D. Levi and S. Hava, "One-dimensional Antireflection Gratings in (100) 
   Silicon: a Numerical Study," Appl.Opt. 37, 369-373 (1998).
  
9. S. Hava, J. Ivry, M. Auslender, and B.M. Lacquet, Infr. Transmission Studies
   via Lamellar  Gratings on Si wafer," J. Appl. Phys. 83, 1654-1659 (1998).
   
10. S. Hava, J. Ivry, and M. Auslender, "Transmission of Polarized Infr. Radiation 
    through Lamellar Gratings on a Silicon Wafer," J. Appl. Phys. 84, 2236-2244 (1998). 

11. D. Gani, M. Auslender and S. Hava, "Variable Gratings for Optical Switching:
    Rigorous Electromagnetic Simulation and Design," Opt.  Eng. 38, 1-6 (1999).
    
12. S. Hava, J. Ivri and M. Auslender, “Reflection of Infr. radiation from lamellar 
      gratings on a silicon wafer,” J. Appl. Phys. 85, 7893-7898 (1999).
      
13. S. Hava and M. Auslender, “Design and analysis of low-reflection grating 
    microstructures for a solar energy absorber,” 
    Solar Energy Materials & Solar Cells, 61(2), 143-151 (2000).

14. S. Hava and M. Auslender, “Groove depth dependence of IR transmission spectra
    through silicon gratings: experiment versus theory,” 
    Infr. Phys. & Technol. 41 (3) 149-154 (2000).
    
15. S. Hava, M. Auslender,  “Optical scatterometry evaluation of groove depth in
    lamellar silicon grating structures,” Opt. Eng. 40 (07), 1244-1248 (2001).

    
Conference Contributions Abstracts and (Abstracts Proceedings and Abstracts)

1. S. Hava, M.Auslender and D. Rabinovic, "The Operator Approach in Electromagnetic
   Coupled-Wave Calculations of Lamellar Gratings: Application to Silicon Gratings," 
   Bulletin of Israel Physical Society, 39, 139 (1993).

2. M. Auslender and S. Hava, "Computer Simulations of Lamellar Grating Structures: 
   Silicon Grating-Waveguide Spectral Mirror and Enhanced Absorption Grating Structures," 
   German-Israeli Symposium on Optical Signal and Image Processing, Herzliya, June 1994.

3. S. Hava and M. Auslender, "New Fourier-Transform Based Methods for Electromagnetics
   of Layer-Grating Structures," SPIE Conference on Simulation of Optoelectronic and 
   Micro-Optical Devices, San-Jose, 4-10 Feb. 1995: Proc. SPIE 2399, 95-108 (1995).

4. A. Sharon, D. Rosenblatt, S. Glasberg and A. Friesem, H.G. Weber, H. Engle and 
   R. Steingruber, M. Auslender and S. Hava, "Resonant Grating-Waveguide Structures 
   for Optical Switching and Tunable Filters," 2nd International Conference on Photo-
   Excited Processes and Applications, Jerusalem, 17-21 Sept.1995.

5. M. Auslender and S. Hava, "S-Matrix Propagation Algorithm for Electromagnetics of  
   Multilayer Grating Structures,” SPIE Conference on Diffractive and Holographic Optics
   Technology III, San-Jose 1-2 Feb. 1996: Proc. SPIE 2689, 66-79 (1996).

6. E. Mordel, T. Mordel, M. Auslender and S. Hava, "A Visual Tool for Electromagnetic
   Simulation and Design of Multilayer Grating Structures,” 19th IEEE Convention in 
   Israel, Jerusalem 5-6 Nov. 1996: Proc. IEEE 96TH8190, 553-556 (1996).

7. S. Hava, E. Mordel, T.Mordel, and M. Auslender, "A visual tool for electromagnetic 
   simulation and design of multilayer grating structures," in 10th Meeting on Optical 
   Engineering in Israel, 2-6 March 1997, Jerusalem: Proc. SPIE 3110, 753-757 (1997).
    
8. M. Auslender, D. Levy, and S. Hava, "S-matrix propagation algorithm for full
   -vectorial electromagnetic simulation and design of gratings," 10th Meeting on Optical
   Engineering in Israel, 2-6 March 1997, Jerusalem: Proc. SPIE  3110, 734-40 (1997).
   
9. M. Auslender, D. Levy, and S. Hava, "Design and analysis of antireflection grating 
   structure for solar energy absorber," in Optical Materials Technology for Energy 
   Efficiency and Solar Energy Conversion XV, 28-29 July 1997, San Diego: 
   Proc. SPIE 3138, 180-185 (1997).
       
10. E.Mordel, T. Mordel, M. Auslender, S. Hava, "A visual tool for electromagnetic 
    simulation and design of multilayer grating structures" in Diffractive and 
    Holographic Device Technologies and Applications IV, 12-13 Feb. 1997, San Jose: 
    Proc. SPIE 3010, 90-94 (1997)
      
11. M. Auslender,  S. Hava, D. Levy, "Electromagnetic simulations and design of lamellar 
    and surface-relief gratings using S-matrix propagation algorithm," Diffractive and 
    Holographic Device Technologies and Applications IV, 12-13 Feb. 1997, San Jose:
    Proc. SPIE 3010, 83-89 (1997)