Priv.-Doz. Dr. Uwe Bandelow
List of Publications

1 Publications in Refereed Journals

1. F. Severing, U. Bandelow, S. Amiranashvili, Spurious Four-Wave Mixing Processes in Generalized Nonlinear Schrödinger Equations Journal of Lightwave Technolog, Vol. 41(2023), pp.5359--5365


2. S. Amiranashvili, U. Bandelow, Unusual scenarios in four-wave-mixing instability Phys. Rev. A, Vol. 105 (2022), pp. 063519/1--063519/6


3. H. Wenzel, M. Kantner, M. Radziunas, U. Bandelow, Semiconductor laser linewidth theory revisited APPS. Applied Sciences, Vol. 11 (2021), pp. 1--29


4. Sh. Amiranashvili, M. Radziunas, U. Bandelow, K. Busch, R. Ciegis, Additive splitting methods for parallel solution of evolution problems Journal of Computational Physics, Vol. 436 (2021), p. 110320


5. U. Bandelow, Sh. Amiranashvili, S. Pickartz, Stabilization of Optical Pulse Transmission by Exploiting Fiber Nonlinearities Journal of Lightwave Technology, Vol. 38, No. 20 (2020), pp. 5743-5747


6. A. Zeghuzi, H.-J. Wünsche, H. Wenzel, M. Radziunas, J. Fuhrmann, A. Klehr, U. Bandelow, A. Knigge, Time-dependent simulation of thermal lensing in high-power broad-area semiconductor lasers IEEE J. Select. Topics Quantum Electron., Vol. 25, No. 6, (2019) p. 1502310


7. C. Brée, V. Raab, J. Montiel-Ponsoda, G. Garre-Werner, K. Staliunas, U. Bandelow, M. Radziunas, Beam combining scheme for high-power broad-area semiconductor lasers with Lyot-filtered reinjection: Modeling, simulations, and experiments JOSA B, Vol. 36, No. 7, (2019) pp. 1721-1730


8. M. Radziunas, J. Fuhrmann, A. Zeghuzi, H.-J. Wünsche, T. Koprucki, C. Brée, H. Wenzel, U. Bandelow, Efficient coupling of electro-optical and heat-transport models for broad-area semiconductor lasers Opt Quant Electron, Vol. 51, No. 69, (2019)


9. A. Zeghuzi, M. Radziunas, H.-J. Wünsche, J.-P. Koester, H. Wenzel, U. Bandelow, A. Knigge, Traveling wave analysis of non-thermal far-field blooming in high-power broad-area lasers IEEE J. Quantum Electron., Vol. 55, No. 2, (2019) p. 2000207


10. Sh. Amiranashvili, M. Radziunas, U. Bandelow, R. Ciegis, Numerical methods for accurate description of ultrashort pulses in optical fibers Communications in Nonlinear Science and Numerical Simulation, Vol. 67, (2018) pp. 391-402


11. U. Bandelow, A. Ankiewicz, Sh. Amiranashvili, N. Akhmediev, Sasa-Satsuma hierarchy of integrable evolution equations Chaos, Vol. 28, (2018) pp. 053108/1-053108/11


12. M. Radziunas, A. Zeghuzi, J. Fuhrmann, T. Koprucki, H.-J. Wünsche, H. Wenzel, U. Bandelow, Efficient coupling of inhomogeneous current spreading and dynamic electro-optical models for broad-area edge-emitting semiconductor devices Opt. Quantum Electron., Vol. 49, (2017) pp. 332:1-8


13. S. Pickartz, C. Brée, U. Bandelow, Sh. Amiranashvili, Cancellation of Raman self-frequency shift for compression of optical pulses Opt. Quantum Electron., Vol. 49, (2017) pp. 328:1-7


14. S. Pickartz, U. Bandelow, Sh. Amiranashvili, Asymptotically stable compensation of soliton self-frequency shift Opt. Lett., Vol. 42, (2017) pp. 1416-1419


15. S. Pickartz, U. Bandelow, Sh. Amiranashvili, Efficient all-optical control of solitons Opt. Quantum Electron., Vol. 48, (2016) pp. 503:1-7


16. S. Pickartz, U. Bandelow, Sh. Amiranashvili, Adiabatic theory of solitons fed by dispersive waves Phys. Rev. A, Vol. 94, (2016) pp. 033811/1-033811/12


17. M. Kantner, U. Bandelow, T. Koprucki, J.-H. Schulze, A. Strittmatter, H.-J. Wünsche, Efficient Current Injection Into Single Quantum Dots Through Oxide-Confined PN-Diodes IEEE Transactions on Electron Devices, Vol. 63, No. 5, (2016) pp. 2036-2042


18. A. Ankiewicz, D. J. Kedziora, A. Chowdury, U. Bandelow, N. Akhmediev, Infinite hierarchy of nonlinear Schrödinger equations and their solutions Phys. Rev. E, Vol. 93, No. 1, (2016) pp. 012206/1-012206/10


19. Sh. Amiranashvili, U. Bandelow, N. Akhmediev, Ultrashort Optical Solitons in Transparent Nonlinear Media with Arbitrary Dispersion Opt. Quantum Electron., Vol. 46, (2014) pp. 1233-1238


20. Sh. Amiranashvili, U. Bandelow, N. Akhmediev, Spectral properties of limiting solitons in optical fibers. Optics Express, Vol. 22, No. 24, (2014) pp. 30251-30256


21. A. Wilms, P. Mathé, F. Schulze, T. Koprucki, A. Knorr, U. Bandelow, Influence of the carrier reservoir dimensionality on electron-electron scattering in quantum dot materials. Physical Review B, Vol. 88, (2013) pp. 235421/1--235421/11


22. C. Brée, S. Amiranashvili, U. Bandelow, Spatio-temporal pulse propagation in nonlinear dispersive optical media. Optical and Quantum Electronics, Vol. 45, No. 7, (2013) pp. 727-733


23. U. Bandelow, N. Akhmediev, Solitons on a background, rouge waves and classical soliton solutions of Sasa-Satsuma equation. Journal of Optics, Vol. 15, No. 6, (2013) pp. 064006/1-064006/10


24. A. Pimenov, V. Z. Tronciu, U. Bandelow, A. G. Vladimirov, Dynamical regimes of a multi-stripe laser array with external off-axis feedback. J.-Opt. Soc. Amer.-B, Vol. 30, No. 6, (2013) pp. 1606-1613


25. Sh. Amiranashvili, U. Bandelow, N. Akhmediev, Few-cycle optical solitary waves in nonlinear dispersive media. Physical Review A, 87 (2013) pp. 013805/1-013805/8


26. U. Bandelow, N. Akhmediev, Sasa-Satsuma equation: Soliton on a background and its limiting cases. Physical Review E, 86 (2012) pp. 026606/1-026606/8


27. S. Amiranashvili, U. Bandelow, A. Mielke, Calculation of ultrashort pulse propagation based on rational approximations for medium dispersion. Optical and Quantum Electronics, 44 (2012) pp. 241-246


28. V. Tronciu, S. Schwertfeger, M. Radziunas, A. Klehr, U. Bandelow, H. Wenzel, Amplifications of picosecond laser pulses in tapered semiconductor amplifiers: Numerical simulations versus experiments. Optics Communications, 285 (2012) pp. 2897-2904


29. U. Bandelow, N. Akhmediev, Persistence of rogue waves in extended nonlinear Schrödinger equations: Integrable Sasa-Satsuma case. Physics Letters A, 376 (2012) pp. 1558-1561


30. T. Koprucki, A. Wilms, A. Knorr, U. Bandelow, Modeling of quantum dot lasers with microscopic treatment of Coulomb effects. Opt. Quantum Electron, 42 (2011) pp. 777-783


31. S. Amiranashvili, U. Bandelow, N. Akhmediev. Dispersion of nonlinear group velocity determines shortest envelope solitons. Phys. Rev. A, 84 (2011) pp. 043834


32. I. Babushkin, U. Bandelow, A.G. Vladimirov. Rotational symmetry breaking in small-area circular vertical cavity surface emitting lasers. Opt. Comm., 284(5):1299-1302, 2011.


33. A.G. Vladimirov, U. Bandelow, G. Fiol, D. Arsenijević, M. Kleinert, D. Bimberg, A. Pimenov, D. Rachiniskii. Dynamical regimes in a monolithic passively mode-locked quantum dot laser. J. Opt. Soc. Am. B, 27:2102-2109, 2010.


34. M.-R. Dachner, E. Malic, M. Richter, A. Carmele, J. Kabuss, A. Wilms, J.-E. Kim, G. Hartmann, J. Wolters, U. Bandelow, A. Knorr. Theory of carrier and photon dynamics in quantum dot light emitters. Phys. Status Solidi B, 247:809-828, 2010.


35. Sh. Amiranashvili, A.G. Vladimirov, and U. Bandelow. A model equation for ultrashort optical pulses. Europ. Phys. J. D, 58:219-226, 2010.


36. Sh. Amiranashvili, U. Bandelow, and A. Mielke. Padé approximant for refractive index and nonlocal envelope equations. Opt. Commun., 283:480-485, 2010.


37. V. Tronciu, M. Lichtner, M. Radziunas, U. Bandelow, and H. Wenzel. Improving the stability of distributed-feedback tapered master-oscillator power-amplifiers. Opt. Quantum Electron., 41, 7:531-537, 2009.


38. M. Spreemann, M. Lichtner, M. Radziunas, U. Bandelow, and H. Wenzel. Measurement and simulation of distributed-feedback tapered master-oscillator power-amplifiers. IEEE J. Quantum Electron., 45(6):609-616, 2009.


39. M. Radziunas, V. Tronciu, U. Bandelow, M. Lichtner, M. Spreemann, and H. Wenzel. Mode transitions in distributed-feedback tapered master-oscillator power-amplifier: theory and experiments. Opt. Quantum Electron., 40:1103-1109, 2009.


40. M.E. Pietrzyk, I. Kanattšikov, and U. Bandelow. On the propagation of vector ultra-short pulses. J. Nonlin. Mathematical Physics, 15(2):162-170, 2008.


41. A. Demircan, M. Pietrzyk, and U. Bandelow. Effects of higher-order dispersion on pulse splitting in the normal dispersion regime. Opt. Quantum Electron., 40(5-6):455-460, 2008.


42. Sh. Amiranashvili, A.G. Vladimirov, and U. Bandelow. Solitary wave solutions for few-cycle optical pulses. Virtual Journal of Ultrafast Science, 7(7), July 2008.


43. Sh. Amiranashvili, A.G. Vladimirov, and U. Bandelow. Solitary wave solutions for few-cycle optical pulses. Phys. Rev. A, 77:063821, 2008.


44. A. Demircan and U. Bandelow. Analysis of the interplay between soliton fission and modulation instability in supercontinuum generation. Appl. Phys. B, 86(1):31-39, 2007.


45. A. Demircan and U. Bandelow. Limit for pulse compression by pulse splitting. Opt. Quantum Electron., 38(12-14):1167-1172, 2007.


46. M. Radziunas, A. Glitzky, U. Bandelow, M. Wolfrum, U. Troppenz, J. Kreissl, and W. Rehbein. Improving the modulation bandwidth in semiconductor lasers by passive feedback. IEEE J. Select. Topics Quantum Electron., 13(1):136-142, 2007.


47. U. Bandelow, M. Radziunas, A. Vladimirov, B. Hüttl, and R. Kaiser. 40 GHz mode-locked semiconductor lasers: Theory, simulations and experiment. Opt. Quantum Electron., 38(4-6):495-512, 2006.


48. B. Hüttl, R. Kaiser, C. Kindel, S. Fidorra, W. Rehbein, H. Stolpe, G. Sahin, U. Bandelow, M. Radziunas, A. Vladimirov, and H. Heidrich. Experimental investigations on the suppression of Q-switching in monolithic 40 GHz mode-locked semiconductor lasers. Appl. Phys. Lett., 88:221104/1-221104/3, 2006.


49. D. Rachinskii, A. Vladimirov, U. Bandelow, B. Hüttl, and R. Kaiser. Q-switching instability in a mode-locked semiconductor laser. J. Opt. Soc. Amer. B, 23:663-670, 2006.


50. A. Demircan, M. Kroh, U. Bandelow, B. Hüttl, and H.-G. Weber. Compression limit by third-order dispersion in the normal dispersion regime. IEEE Phot. Tech. Lett., 18(22):2353-2355, 2006.


51. E. Viktorov, P. Mandel, A. Vladimirov, and U. Bandelow. Model for mode-locking in quantum dot lasers. Appl. Phys. Lett., 88:201102, 2006.


52. T. Koprucki, M. Baro, U. Bandelow, T.Q. Tien, F. Weik, J.W. Tomm, M. Grau, and M.-C. Amann. Electronic structure and optoelectronic properties of strained InAsSb/GaSb multiple quantum wells. Appl. Phys. Lett., 87(18):181911, 2005.


53. A. Demircan and U. Bandelow. Supercontinuum generation by the modulation instability. Opt. Commun., 244(6):181-185, 2005.


54. U. Bandelow, R. Hünlich, and T. Koprucki. Simulation of static and dynamic properties of edge-emitting multiple-quantum-well lasers. IEEE J. Select. Topics Quantum Electron., 9(3):798-806, 2003.


55. U. Bandelow, M. Radziunas, J. Sieber, and M. Wolfrum. Impact of gain dispersion on the spatio-temporal dynamics of multisection lasers. IEEE J. Quantum Electron., 37(2):183-188, 2001.


56. U. Bandelow, H.-Chr. Kaiser, T. Koprucki, and J. Rehberg. Spectral properties of k · p Schrödinger operators in one space dimension. Numer. Funct. Anal. Optim., 21(3 and 4):379-410, 2000.


57. U. Bandelow, L. Recke, and B. Sandstede. Frequency regions for forced locking of self-pulsating multi-section DFB lasers. Opt. Commun., 147:212-218, 1998.


58. J. Rehberg, H.-J. Wünsche, U. Bandelow, and H. Wenzel. Spectral properties of a system describing fast pulsating DFB lasers. ZAMM Z. Angew. Math. Mech., 77:75-77, 1997.


59. U. Bandelow, H.-J. Wünsche, B. Sartorius, and M. Möhrle. Dispersive self-Q-switching in DFB lasers - Theory versus experiment. IEEE J. Select. Topics Quantum Electron., 3(2):270-278, 1997.


60. B. Sartorius, M. Möhrle, S. Reichenbacher, H.-J. Wünsche, and U. Bandelow. Dispersive self-Q-switching in self-pulsating DFB lasers. IEEE J. Quantum Electron., 33:211-218, 1997.


61. H. Wenzel, U. Bandelow, H.-J. Wünsche, and J. Rehberg. Mechanisms of fast self pulsations in two-section DFB lasers. IEEE J. Quantum Electron., 32:69-78, 1996.


62. U. Bandelow, R. Schatz, and H.-J. Wünsche. A correct single-mode photon rate equation for multisection lasers. IEEE Phot. Tech. Lett., 8:614-616, 1996.


63. U. Bandelow, H.-J. Wünsche, and H. Wenzel. Theory of selfpulsations in two-section DFB lasers. IEEE Phot. Tech. Lett., 5:1176-1179, 1993.


64. H.-J. Wünsche, U. Bandelow, and H. Wenzel. Calculation of combined lateral and longitudinal spatial hole burning in λ/4 shifted DFB lasers. IEEE J. Quantum Electron., 29:1751-1761, 1993.


65. U. Bandelow and U. Leonhardt. Light propagation in one-dimensional lossless dielectrica: Transfer matrix method and coupled mode theory. Opt. Commun., 101:92-99, 1993.


66. U. Bandelow, H. Wenzel, and H.-J. Wünsche. Influence of inhomogeneous injection on sidemode suppression in strongly coupled DFB semiconductor lasers. Electron. Lett., 28:1324-1326, 1992.


67. H. Wenzel, H.-J. Wünsche, and U. Bandelow. Linewidth rebroadening in semiconductor lasers due to lateral spatial holeburning. Electron. Lett., 27:2301-2302, 1991.

2 Theses and Book Chapters

1. M. Kantner, T. Höhne, T. Koprucki, S. Burger, H.-J. wünsche, F. Schmidt, A. Mielke, and U. Bandelow. Multi-dimensional modeling and simulation of semiconductor nanophotonic devices. In: Semiconductor Nanophotonics, M. Kneissl, A. Knorr, S. Reitzenstein, A. Hoffmann, eds., Springer Series in Solid-State Sciences, Springer Verlag, Vol. 194, (7)2020, pp. 241-283


2. S. Rodt, P.-I. Schneider, L. Zschiedrich, T. Heindel, S. Bounouar, M. Kantner, T. Koprucki, U. Bandelow, S. Burger, and S. Reitzenstein. Deterministic Quantum Devices for Optical Quantum Communication. In: Semiconductor Nanophotonics, M. Kneissl, A. Knorr, S. Reitzenstein, A. Hoffmann, eds., Springer Series in Solid-State Sciences, Springer Verlag, Vol. 194, (8)2020, pp. 285-359


3. U. Pohl, A. Strittmatter, A. Schliwa, M. Lehmann, T. Niermann, T. Heindel, S. Reitzenstein, M. Kantner, U. Bandelow, T. Koprucki, and H.-J. Wünsche. Stressor-induced site control of quantum dots for single-photon sources}. In: Semiconductor Nanophotonics, M. Kneissl, A. Knorr, S. Reitzenstein, A. Hoffmann, eds., Springer Series in Solid-State Sciences, Springer Verlag, Vol. 194, (3)2020, pp. 53-90


4. S. Amiranashvili, U. Bandelow, M. Blome et al. D3 -- Nanophotonics and nonlinear fiber optics. in: MATHEON -- Mathematics for Key Technologies, M. Grötschel, D. Hömberg, J. Spekels, V. Mehrmann et al., eds., 1 of EMS Series in Industrial and Applied Mathematics, European Mathematical Society Publishing House, Zurich, 2014, pp. 257--274


5. M. Lichtner, M. Spreemann, and U. Bandelow. Parallel simulation of high power semiconductor lasers. to appear in Lecture Notes in Computer Science (LNCS). Springer.


6. U. Bandelow. Advanced mathematical modeling of nonlinear optoelectronic and photonic components. Habilitation thesis, Humboldt-Universität zu Berlin, Math.-Naturwiss. Fakultät I, 2009.


7. A. Demircan, M. Pietrzyk, I. Kanattšikow, and U. Bandelow. Higher-Order Solitons and Modulation Instability in Optical Fibers. In: Nova Science Publishers, Inc., 2009, edit. F. Columbus.


8. U. Bandelow, H. Gajewski, and R. Hünlich. chapter 3: Fabry-Perot lasers: Thermodynamics-based modeling. In J. Piprek, editor, Optoelectronic Devices: Advanced Simulation and Analysis, pages 63-85. Springer, 2005.


9. U. Bandelow, H.-Chr. Kaiser, T. Koprucki, and J. Rehberg. Mathematics - Key technology for the future, chapter Modeling and simulation of strained quantum wells in semiconductor lasers, pages 377-390. Springer Verlag, 2003.


10. U. Bandelow. Theorie longitudinaler Effekte in 1.55 μm Mehrsektions-DFB-Laserdioden. Phd thesis, Humboldt-Universität zu Berlin, Institut für Physik, 1994.


11. U. Bandelow. Berechnung der Longitudinalmoden von DFB Halbleiterlasern. Diploma thesis, Humboldt-Universität zu Berlin, FB. Physik, 1991.

3 Conference Proceedings

1. U. Bandelow, M. Radziunas, A. Zeghuzi, H.-J. Wünsche and H. Wenzel. Dynamics in high-power diode lasers. In Proceedings of SPIE, Semiconductor Lasers and Laser Dynamics IX, pages 113560W, (11356)2020.


2. M. Kantner, T. Koprucki, H.-J. Wünsche and U. Bandelow. Simulation of quantum dot based single-photon sources using the Schrödinger-Poisson-Drift-Diffusion-Lindblad system. In Proceedings of the 24th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD 2019), pages 355-358, 2019.


3. A. Zeghuzi, H.-J. Wünsche, H. Wenzel, J. P. Koester, M. Radziunas, U. Bandelow and A. Knigge. Traveling-wave simulations of broad-area lasers. In Proceedings of HPDLS Conference, Coventry, 2019.


4. U. Bandelow, Sh. Amiranashvili and S. Pickartz. Control of solitons in the regime of event horizons in nonlinear dispersive optical media. In Proceedings of the 19th International Conference on Numerical Simulation of Optoelectronic Devices, pages 141-142, 2019.


5. U. Bandelow, S. Amiranashvili and S. Pickartz. Ultrashort solitons and their control in the regime of event horizons in nonlinear dispersive optical media. In Proceedings of the 18th International Conference on Numerical Simulation of Optoelectronic Devices, pages 87-88, 2018.


6. M. Radziunas, J. Fuhrmann, A. Zeghuzi, H.-J. Wünsche, T. Koprucki, H. Wenzel and U. Bandelow. Efficient coupling of heat flow and electro-optical models for simulation of dynamics in high-power broad-area semiconductor devices. In Proceedings of the 18th International Conference on Numerical Simulation of Optoelectronic Devices, pages 91-92, 2018.


7. A. Zeghuzi, M. Radziunas, H. Wenzel, H.-J. Wünsche, U. Bandelow and A. Knigge. Modeling of current spreading in high-power broad-area lasers and its impact on the lateral far field divergence. In Proceedings of SPIE 10526, Physics and Simulation of Optoelectronic Devices XXVI, 2018.


8. S. Pickartz, U. Bandelow and S. Amiranashvili. Cancellation of Raman self-frequency shift for compression of optical pulses. In Proceedings of the 17th International Conference on Numerical Simulation of Optoelectronic Devices, pages 173-174, 2017.


9. M. Radziunas, A. Zeghuzi, J. Fuhrmann, T. Koprucki, H.-J. Wünsche, H. Wenzel and U. Bandelow. Efficient coupling of inhomogeneous current spreading and electro-optical models for simulation of dynamics in broad-area semiconductor lasers. In Proceedings of the 17th International Conference on Numerical Simulation of Optoelectronic Devices, pages 231-232, 2017.


10. M. Kantner, U. Bandelow, T. Koprucki and H.-J. Wünsche. Simulation of quantum dot devices by coupling of quantum master equations and semi-classical transport theory. In Proceedings of the 17th International Conference on Numerical Simulation of Optoelectronic Devices, pages 217-218, 2017.


11. M. Kantner, U. Bandelow, T. Koprucki and H.-J. Wünsche. Modeling and simulation of injection dynamics for quantum dot based single-photon sources. In Proceedings of the 16th International Conference on Numerical Simulation of Optoelectronic Devices, pages 219-220, 2016.


12. M. Kantner, U. Bandelow, T. Koprucki, J.-H. Schulze, A. Strittmatter and H.-J. Wünsche. On current injection into single quantum dots through oxide-confined PN-diodes. In Proceedings of the 16th International Conference on Numerical Simulation of Optoelectronic Devices, pages 215-216, 2016.


13. S. Pickartz, U. Bandelow and S. Amiranashvili. Numerical optimization of all-optical switching. In Proceedings of the 16th International Conference on Numerical Simulation of Optoelectronic Devices, pages 189-190, 2016.


14. M. Kantner, U. Bandelow, T. Koprucki and H.-J. Wünsche. Modeling and numerical simulation of electrically pumped single-photon emitters. In Proceedings of the 15th International Conference on Numerical Simulation of Optoelectronic Devices 2015, pages 151-152, 2015.


15. M. Kantner, U. Bandelow and T. Koprucki. Multi-scale Modeling and Simulation of Single-Photon Sources. In Proceedings of International Nano-Optoelectronics Workshop inow15 2015, Tokyo, Japan, August 3-7, 2015, pages 129-130, 2015.


16. U. Bandelow, Sh. Amiranashvili and N. Akhmediev. Limitation for ultrashort solitons in nonlinear optical fibers by cusp formation. In Proceedings of the CLEO Europe/IQEC Conference, Munich, Germany, June 21-25, 2015, page EI-2.3 THU, 2015.


17. Sh. Amiranashvili, U. Bandelow and N. Akhmediev. Recent progress in theory of nonlinear pulse propagation in optical fibers. In Proceedings of the 14th International Conference on Numerical Simulation of Optoelectronic Devices {NUSOD} 2014, Palma de Mallorca, Spain, September, 2014, pages 131-132, 2014.


18. U. Bandelow, T. Koprucki and H.-J. Wünsche. Dynamics of classical optical fields in semiconductor lasers. In Proceedings of the International Nano-Optoelectronics Workshop, iNOW'2014, Luga and St. Petersburg, Russia, August 11-22, 2014, pages 13-14, 2014.


19. U. Bandelow and N. Akhmediev. Solitons on a background, Rogue waves, and Classical Soliton Solutions of extended Nonlinear Schrödinger Equations. In IEEE Proc. of Sixth Rio de la Plata Workshop on laser dynamics and nonlinear photonics, Montevideo, Uruguay, January, 2014.


20. Sh. Amiranashvili, U. Bandelow and N. Akhmediev. Ultrashort Optical Solitons in Nonlinear Media with Arbitrary Dispersion. In Proceedings of the 13th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD'13, Vancouver, Canada, August 19-22, 2013, pages 117-118, 2013.


21. U. Bandelow, T. Koprucki, K. Gärtner, A. Wilms and A. Mielke. Comprehensive mathematical modeling and simulation of semiconductor lasers. In Proceedings of the International Nano-Optoelectronics Workshop, iNOW'2013, Cargese, Corsica, August 20-29, 2013, pages A7-A8, 2013.


22. C. Brée, Sh. Amiranashvili, and U. Bandelow. Spatio-Temporal Pulse Propagation in nonlinear dispersive optical Media. In Proceedings of the 12th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD'12, Shanghai, China, August 28-31, 2012, pages 131-132, 2012.


23. U. Bandelow, T. Koprucki, A. Wilms, and A. Knorr. Multi-species modeling of quantum dot lasers with microscopic treatment of Coulomb scattering. In Proc. of the 10th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD'10, Atlanta, USA, September 6-9, 2010, pages 59-60, 2010.


24. V.Z. Tronciu, M. Lichtner, M. Radziunas, U. Bandelow, and H. Wenzel. Dynamics and stability improvement of DFB tapered master-oscillator power-amplifiers. In Proc. of the 6th International Conference on Microelectronics and Computer Science, Chisinau, Republic of Moldova, October 1-3, 2009, pages 15-18, 2009.


25. V. Tronciu, M. Lichtner, M. Radziunas, U. Bandelow, and H. Wenzel. Improving the stability of distributed-feedback tapered master-oscillator power-amplifiers. In J. Piprek and Yong-Tak Lee, editors, Proceedings of the 9th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD '09, number CFP09817-PRT, pages 55-56. IEEE, 2009.


26. V.Z. Tronciu, M. Lichtner, M. Radziunas, U. Bandelow, and H. Wenzel. Calculation of improved features of distributed-feedback tapered master-oscillator power-amplifiers. In IEEE, editor, 2009 European Conference on Lasers and Electro-Optics and the XIth European Quantum Electronics Conference (CLEO®/Europe-EQEC) Conference Digest, page CB.P.30 TUE, 2009.


27. M. Lichtner, M. Radziunas, U. Bandelow, M. Spreemann, and H. Wenzel. Dynamic simulation of high brightness semiconductor lasers. In J. Piprek and E. Larkins, editors, Proceedings of the 8th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD '08, pages 65-66. IEEE/LEOS, 2008.


28. A. Demircan, M. Kroh, M. Pietrzyk, B. Hüttl, and U. Bandelow. Non-Raman redshift by pulse splitting in the normal dispersion regime. In J. Piprek and D. Prather, editors, Proceedings of the 7th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD '07, September 24-27, 2007, pages 99-100, paper ThB4, Piscataway, NJ, 2007. IEEE/LEOS.


29. A. Demircan, M. Kroh, B. Hüttl, and U. Bandelow. Generation of new frequencies by pulse splitting. In Proceedings of the 33rd European Conference on Optical Communication (ECOC 2007), in Berlin, Germany, September 16-20, 2007, volume 5, Poster Sessions, pages 73-74, Berlin, 2007. VDE Verlag GmbH.


30. U. Bandelow and A. Demircan. Pulse splitting by third-order dispersion. In J. Piprek and S.-F. Yu, editors, Proceedings of the 6th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD '06, IEEE Catalog 06EX1456, pages 113-114. IEEE, 2006.


31. U. Troppenz, J. Kreissl, W. Rehbein, C. Bornholdt, T. Gaertner, M. Radziunas, A. Glitzky, U. Bandelow, and M. Wolfrum. 40 Gb/s directly modulated InGaAsP passive feedback DFB laser. In Proceedings of the 32nd European Conference on Optical Communication (ECOC 2006), Nice, France, Postdeadline session, pages Th 4.5.5/1-Th 4.5.5/2, 2006.


32. M. Radziunas, U. Bandelow, M. Wolfrum, U. Troppenz, J. Kreissl, A. Glitzky, and R. Hünlich. Design of multisection semiconductor laser for 40 Gb/s direct modulation. In Proceedings of the 31st European Conference on Optical Communication ECOC 2005, Glasgow, UK, September 25-29, 2005, pages 677-678, London, 2005. Institution of Electrical Engineers.


33. U. Bandelow and A. Demircan. Impact of modulation instability on the supercontinuum generation. In H.-J. Wünsche, J. Piprek, U. Bandelow, and H. Wenzel, editors, Proceedings of the 5th International Conference on Numerical Simulation of Optoelectronic Devices, NUSOD '05, in Berlin, September 19-22, 2005, pages 65-66, Piscataway, NJ, 2005. IEEE.


34. U. Bandelow, H. Gajewski, and R. Hünlich. Thermodynamic designed energy model. In J. Piprek, editor, Proceedings of the IEEE/LEOS 3rd International Conference on Numerical Simulation of Semiconductor Optoelectronic Devices, NUSOD '03, pages 35-37. IEEE/LEOS, 2003.


35. U. Bandelow, M. Radziunas, V. Tronciu, H.-J. Wünsche, and F.Henneberger. Tailoring the dynamics of diode lasers by dispersive reflectors. In M. Osinski and P. Blood, editors, Physics and Simulation of Optoelectronic Devices VIII, volume 3944 of Proceedings of SPIE, pages 536-545, 2000.


36. U. Bandelow, H. Gajewski, and H.-Chr. Kaiser. Modeling combined effects of carrier injection, photon dynamics and heating in strained multiple-quantum-well lasers. In R. H. Binder, M. Osinski, and P. Blood, editors, Physics and Simulation of Optoelectronic Devices VIII, volume 3944 of Proceedings of SPIE, pages 301-310, 2000.


37. O. Mayrock, H.-J. Wünsche, F. Henneberger, O. Brandt, U. Bandelow, and H.-Chr. Kaiser. Calculation of localized multi-particle states in (Zn,Cd)Se and (InGa)N quantum wells. In D. Gershoni, editor, Proc. of International Conference on the Physics of Semiconductors (ICPS 24), Jerusalem, Israel, Art. IXB29 (1344.pdf). World Scientific Publishing, 1999.


38. H.-J. Wünsche, F. Henneberger, O. Brandt, U. Bandelow, and H.-Chr. Kaiser. Gain calculations for localized excitons and biexcitons: (In,Ga)N versus (Zn,Cd)Se quantum wells. In Conference Digest of 15th IEEE International Semiconductor Laser Conference, Nara, Japan, pages 191-192, 1998.


39. U. Bandelow, H.-J. Wünsche, and B. Sartorius. Dispersive self Q-switching in DFB lasers: Theory versus experiment. In Conference Digest of 15th IEEE International Semiconductor Laser Conference, Haifa, Israel, pages 163-164, 1996.


40. H.-J. Wünsche, U. Bandelow, H. Wenzel, and D.D. Marcenac. Self pulsations by mode degeneracy in two-section DFB lasers. In M. Osinski, and W. W. Chow, editors, Physics and Simulation of Optoelectronic Devices III, volume 2399 of Proceedings of SPIE, pages 301-310, 1995.


41. U. Bandelow, H. Wenzel, and H.-J. Wünsche. Calculation of combined lateral and longitudinal spatial hole burning in λ/4 shifted DFB lasers. In Conference Digest of the 13th IEEE International Semiconductor Laser Conference, Takamatsu, Japan, pages 38-39, 1992.


42. H.-J. Wünsche, H. Wenzel, U. Bandelow, J. Piprek, H. Gajewski, and J. Rehberg. 2D Modelling of distributed feedback semiconductor lasers. In Proc. of the 4th. Int. Conf. on Simulation of Semiconductor Devices and Processes, pages 65-70, 1991.


43. U. Bandelow. Numerische Simulation von DFB-Lasern. In P. A. Markowich, H. Gajewski, and P. Deuflhard, editors, NUMSIM '91: Collected Abstracts and Papers, pages 37-42. Konrad-Zuse-Zentrum für Informationstechnik Berlin, 1991.

4 Reports

1. U. Bandelow, A. Demircan, and M. Kesting. Simulation of pulse propagation in optical nonlinear fibers. Report 23, WIAS, Berlin, 2003.


2. J. Sieber, U. Bandelow, H. Wenzel, M. Wolfrum, and H.-J. Wünsche. Travelling wave equations for semiconductor lasers with Gain Dispersion. Preprint 459, WIAS, Berlin, 1998.


WIAS-Reports and -Preprints




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