All Stories

  1. Electronic band structure and material gain of III-V-Bi quantum wells grown on GaSb substrate and dedicated for mid-infrared spectral range

    Article • Journal of Applied Physics, February 2016, American Institute of Physics

    Marek Stanislaw Wartak

  2. 8-band and 14-band kp modeling of electronic band structure and material gain in Ga(In)AsBi quantum wells grown on GaAs and InP substrates

    Article • Journal of Applied Physics, August 2015, American Institute of Physics

    Marek Stanislaw Wartak

  3. Electronic Band Structure and Material Gain of Dilute Nitride Quantum Wells Grown on InP Substrate

    Article • IEEE Journal of Quantum Electronics, May 2015, Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak

  4. Material Gain in Ga0.66In0.34NyAs1–y, GaNyAs0.69–ySb0.31, and GaNyP0.46Sb0.54–yQuantum Wells Grown on GaAs Substrates: Comparative Theoretical Studies

    Article • IEEE Journal of Quantum Electronics, December 2014, Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak

  5. Spoof plasmons in real metals with an arbitrary shape of perforation

    Article • September 2014, SPIE

    Marek Stanislaw Wartak

  6. Modeling of optical gain in GaInNAs quantum wells by using 8-band and 10-band models

    Article • March 2014, SPIE

    Marek Stanislaw Wartak

  7. Theoretical studies of optical gain tuning by hydrostatic pressure in GaInNAs/GaAs quantum wells

    Article • Journal of Applied Physics, January 2014, American Institute of Physics

    Marek Stanislaw Wartak

  8. Transmission-line laser modeling of carrier diffusion in VCSEL

    Article • Mathematics of Quantum Technologies, January 2014, De Gruyter

    Marek Stanislaw Wartak

  9. Band structure and the optical gain of GaInNAs/GaAs quantum wells modeled within 10-band and 8-band kp model

    Article • Journal of Applied Physics, February 2013, American Institute of Physics

    Marek Stanislaw Wartak

  10. Numerical studies of optical gain of coupled quantum wells based on InGaAsN material system

    Article • physica status solidi (b), April 2008, Wiley

    Marek Stanislaw Wartak

  11. Nonequilibrium carrier corrections to the optical gain in semiconductor quantum well structures

    Article • physica status solidi c, January 2008, Wiley

    Marek Stanislaw Wartak

  12. Differential Gain in InGaAsN/GaAs Double Quantum Well Structures by Numerical Simulations

    Article • Research Letters in Physics, January 2008, Hindawi Publishing Corporation

    Marek Stanislaw Wartak

  13. Kinetic and Quantum Models for Nanoelectronic and Optoelectronic Device Simulation

    Article • Journal of Nanoelectronics and Optoelectronics, December 2007, American Scientific Publishers

    Marek Stanislaw Wartak

  14. Spectra of differential gain and linewidth enhancement factor in InGaAsN/GaAs single quantum well structures

    Article • physica status solidi (a), July 2007, Wiley

    Marek Stanislaw Wartak

  15. Numerical evaluation of effective masses of quantum-well semiconductor lasers based on nitrides systems with self-consistent effects

    Article • April 2006, SPIE

    Marek Stanislaw Wartak

  16. Green's function approach to modelling quantum well semiconductor lasers

    Article • April 2006, SPIE

    Marek Stanislaw Wartak

  17. Optical modal gain in multiple quantum-well semiconductor lasers based on InP

    Article • Canadian Journal of Physics, January 2006, Canadian Science Publishing

    Marek Stanislaw Wartak

  18. On the differential gain in coupled quantum wells

    Article • Journal of Applied Physics, April 2004, American Institute of Physics

    Marek Stanislaw Wartak

  19. Modeling the electrostatic and band-mixing effects on gain for double-quantum-well lasers

    Article • Microwave and Optical Technology Letters, March 2002, Wiley

    Marek Stanislaw Wartak

  20. Effect of well coupling on the TE optical modal gain in quantum-well-based semiconductor lasers

    Article • Journal of Physics Condensed Matter, January 2002, Institute of Physics Publishing

    Marek Stanislaw Wartak

  21. The effect of substrate orientation on the modal gain of quantum-well semiconductor lasers

    Article • Microwave and Optical Technology Letters, January 2000, Wiley

    Marek Stanislaw Wartak

  22. On the optical modal gain of coupled quantum wells

    Article • Microwave and Optical Technology Letters, September 1999, Wiley

    Marek Stanislaw Wartak

  23. The effect of carrier capture and escape on the optical gain of quantum-well semiconductor lasers

    Article • Canadian Journal of Physics, June 1999, Canadian Science Publishing

    Marek Stanislaw Wartak

  24. Well-coupling and band-mixing effects on differential gain of coupled quantum wells

    Article • Microwave and Optical Technology Letters, May 1999, Wiley

    Marek Stanislaw Wartak

  25. Modulation response of tunneling injection laser: Analytical approach

    Article • Journal of Applied Physics, November 1998, American Institute of Physics

    Marek Stanislaw Wartak

  26. Orientational dependence of hole effective masses in quantum-well laser structures

    Article • Superlattices and Microstructures, July 1998, Elsevier

    Marek Stanislaw Wartak

  27. Wavelength chirp of DFB lasers with carrier transport

    Article • Microwave and Optical Technology Letters, August 1997, Wiley

    Marek Stanislaw Wartak

  28. Characterization of Effective Masses and Optical Gain in Strained Quantum-Well Lasers

    Article • Acta Physica Polonica A, November 1995, Institute of Physics, Polish Academy of Sciences

    Marek Stanislaw Wartak

  29. Effect of linear gain saturation on large-signal dynamics of quantum-well lasers

    Article • Microwave and Optical Technology Letters, June 1995, Wiley

    Marek Stanislaw Wartak

  30. Small Signal Analysis of Frequency Chirp in Multiple Quantum Well Lasers

    Article • January 1995, Springer Science + Business Media

    Marek Stanislaw Wartak

  31. Approximate optical gain formulas for 1.55-μm strained quaternary quantum-well lasers

    Article • IEEE Journal of Quantum Electronics, January 1995, Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak

  32. Characterization of effective masses in strained quantum-well laser structures

    Article • November 1994, American Physical Society (APS)

    Marek Stanislaw Wartak

  33. On the two-level systems interacting with electromagnetic field

    Article • Physica Scripta, November 1993, Institute of Physics Publishing

    Marek Stanislaw Wartak

  34. Chromatic dispersion in nonlinear optical waveguides

    Article • Microwave and Optical Technology Letters, September 1989, Wiley

    Marek Stanislaw Wartak

  35. On the use of coherent states for the anharmonic phonon systems

    Article • physica status solidi (b), April 1989, Wiley

    Marek Stanislaw Wartak

  36. Localization of multivibrational excitations

    Article • June 1988, American Physical Society (APS)

    Marek Stanislaw Wartak

  37. Cyclotron Resonance in Metals with g-Factor Anisotropy

    Article • physica status solidi (b), July 1983, Wiley

    Marek Stanislaw Wartak

  38. Effect of spin fluctuations on the order parameter collective modes in superfluid 3He

    Article • Physics Letters A, February 1982, Elsevier

    Marek Stanislaw Wartak

  39. Flapping modes in superfluid 3HeA in a static magnetic field

    Article • Physics Letters A, October 1980, Elsevier

    Marek Stanislaw Wartak

  40. STRONG-COUPLING ORBITAL IN SUPERFLUID 3He-A

    Article • Le Journal de Physique Colloques, August 1978, EDP Sciences

    Marek Stanislaw Wartak

  41. Practical comparison of finite difference time domain schemes

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak

  42. Linear optical fibre and signal degradation

    Article • Cambridge University Press

    Marek Stanislaw Wartak

  43. Rate equation analysis of multiple quantum well lasers

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak

  44. Advanced Modeling of Quantum Well Semiconductor Lasers Based on Wigner Function Approach

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Marek Stanislaw Wartak