Kambiz Jamshidi

Integrated Photonic Devices Lab

 

Kambiz Jamshidi

 

 

 

 

 

 

Kambiz Jamshidi received his Ph.D. degree in Electrical Engineering from Sharif University of Technology (SUT), Tehran, Iran in 2006. Before coming to Germany, he was a faculty member of Advanced Communication Research Institute of SUT, worked on design and modelling of optical code communication systems. In May 2009 he joined High Frequency Technology Institute of Deutsche Telekom University of Applied Sciences in Leipzig as a senior researcher. His research focus in Leipzig was to develop systems for optical signal processing. Later, he joined the joint lab between IHP and Technical University Berlin (Photonics Department) in 2012 and worked on design and realization of integrated photonic devices for optical communications. He is working in Communications Laboratory of TU Dresden as an assistant Professor since March 2013.

 

 

Publications before March 2013:

 

Patents:

P1. Verfahren zur Verzögerung von optischen Pulsen

K. Jamshidi and T. Schneider

(A method for delaying of optical pulses), German and EU patent, file number: 102009050051.0

(Won the best patent award in Deutsche Telekom (2011)).

 

P2. Method for adjustably delaying optical signals

C. Bunge, T. Schneider, M. Schuster, and K. Jamshidi

EU patent, file number: 2,553, 940.

 

P3. Method for generating and/or compensating for dispersion in optical long-distance transmission systems

T. Schneider and K. Jamshidi

EU patent, file number: 2, 487, 815.

 

P4. A system for delay generation in silicon on insulator platform

S. Meister, A. Saadi, H.J. Eichler, K. Jamshidi, and T. Schneider

US patent, file number: 8,705,899.

 

P5. Monitoring of Passive Optical Networks using Single-Laser Multi-Frequency Transmitters for Two-Dimensional Optical Coding

C. Bunge and K. Jamshidi

EU patent, file number: pending.

 

P6. User-selective wakeup scheme for sleep modes in optical star networks

C. Bunge and K. Jamshidi

EU patent, file number: pending.

 

 

Journals:

J1. K. Jamshidi and J. Salehi, "Statistical analysis of coherent ultrashort light pulse CDMA with multiple optical amplifiers using additive noise model," IEEE Journal of Lightwave Technology, vol. 24, pp. 1302-1316, 2005.

 

J2. K. Jamshidi and J. Salehi, "Statistical characterization and bit-error rate analysis of lightwave systems with optical amplification using Two-Photon-Absorption receiver structures," IEEE Journal of Lightwave Technology, vol. 23, pp. 1842-1851, 2006.

 

J3. K. Jamshidi and J. Salehi, "Performance analysis of spectral-phase-encoded optical CDMA system using Two-Photon-Absorption receiver structure for asynchronous and slot-level synchronous transmitters," IEEE Journal of Lightwave Technology, vol. 25, pp. 1638-1645, 2007.

 

J4. Salman Khaleghi, Sina Khalegh, and K. Jamshidi, "Performance analysis of a spectrally phase encoded optical code division multiple access packet network," IEEE/OSA Journal of Optical Communications and Networking, vol. 1, pp. 213-221, 2009.

 

J5. S. Preußler, K. Jamshidi, A. Wiatrek, R. Henker, C.-A. Bunge, and T. Schneider, "Quasi-Light-Storage based on time-frequency coherence," Optics Express, vol. 17, pp. 15790-15798, 2009.

(Highlighted in research highlights of Nature Photonics, October 2009.)

 

J6. A. Wiatrek, K. Jamshidi, R. Henker, S. Preußler, and T. Schneider, "Nonlinear Brillouin based slow-light system for almost distortion-free pulse delay," JOSA B, vol. 27, pp. 544-549, 2010.

 

J7. M. Noshad and K. Jamshidi, "Code family for modified spectral-amplitude-coding OCDMA systems and performance analysis," IEEE/OSA Journal of Optical Communications and Networking, vol. 2, pp. 344-354, 2010.

 

J8. T. Schneider, K. Jamshidi, and S. Preußler, "Quasi Light Storage: A tunable method for the storage of optical packets with a potential delay-bandwidth product of several thousand bits," Journal of Lightwave Technology, vol. 28, pp. 2586-2592, 2010.

 

J9. K. Jamshidi, A. Wiatrek, C. Bersch, G. Onishchukov, G. Leuchs and T. Schneider, "A widely tunable optical delay generator," Optics letters, vol. 35, pp. 3592-3594, 2010.

 

J10. S. Preußler, A. Wiatrek, K. Jamshidi, and T. Schneider, "Brillouin scattering gain bandwidth reduction down to 3.4MHz," Optics Express, vol. 19, pp. 8565-8570, 2011.

 

J11. M. Noshad and K. Jamshidi, "Bounds for the BER of codes with fixed cross-correlation in SAC-OCDMA systems," Journal of Lightwave Technology, vol. 29, pp. 1944-1950, 2011.

 

J12. S. Preußler, A. Wiatrek, K. Jamshidi, and T. Schneider, "Ultra-high resolution spectroscopy based on the bandwidth reduction of stimulated Brillouin scattering," IEEE Photonics Technology Letters, vol. 23, pp. 1118-1120, 2011.

 

J13. S. Preußler, A. Wiatrek, K. Jamshidi, and T. Schneider, "Quasi-Light-Storage enhancement by reducing the Brillouin gain bandwidth," Applied Optics, vol. 50, pp. 4252-4256, 2011.

 

J14. O. Klinger, Y. Stern, T. Schneider, K. Jamshidi, and A. Zadok "Long microwave-photonic variable delay of linear frequency modulated waveforms," IEEE Photonics Technology Letters, vol. 24, pp. 200-202, 2012.

 

J15. K. Jamshidi, S. Preußler, A. Wiatrek, and T. Schneider, "A review to the all optical Quasi Light Storage," IEEE Journal of Selected topics in Quantum Electronics, vol. 18, pp. 884-890, 2012.

 

J16. A. Wiatrek,, S. Preußler, K. Jamshidi, and T. Schneider, "Frequency domain aperture for the gain bandwidth reduction of stimulated Brillouin scattering," Optics letters, vol. 37, pp. 930-932, 2012.

 

J17. Y. Stern, O. Klinger, T. Schneider, K. Jamshidi, A. Peer, and A. Zadok "Low-Distortion long variable delay of linear frequency modulated waveforms," IEEE Photonics Journal, vol. 2, pp. 499-503, 2012.

 

J18. O. Klinger, Y. Stern, F. Pederiva, K. Jamshidi, T. Schneider, and A. Zadok, "Continuously variable long microwave-photonic delay of arbitrary frequency-chirped signals," Optics letters, vol. 37, pp. 3939-3941, 2012.

 

J19. A. Mokhtari, S. Preußler, K. Jamshidi, M. Akbari, and T. Schneider, "Fully-tunable microwave photonic filter with complex coefficients using tunable delay lines based on frequency-time conversions,"Optics express, vol. 20, pp. 22728-22734, 2012.

 

Conferences:

C1. J. K. Fischer, C.-A. Bunge, K. Jamshidi, H. Louchet, and K. Petermann, "Nonlinear diffusion bandwidth and equivalent single-span model: simple tools for the optimization of dispersion maps," Proc. 11th European Conference on Networks and Optical Communications (NOC), Berlin, Germany, 2006.

 

C2. C.-A. Bunge, J.K. Fischer, K. Jamshidi, H. Louchet, and K. Petermann, "The nonlinear diffusion bandwidth: a simple tool for optimizing dispersion maps," Invited paper, Asia-Pacific Optical and Wireless Communications (APOC), Gwangju, Korea, 2006.

 

C3. J. K. Fischer, C.-A. Bunge, K. Petermann, K. Jamshidi, and H. Louchet, "Equivalent dispersion maps in fibre-optic communication systems," European Conference on Optical Communications (ECOC), Cannes, France, 2006.

 

C4. Salman Khaleghi, Sina Khaleghi, and Kambiz Jamshidi, "Analysis of throughput and delay in a spectrally phase-encoded optical CDMA packet network," Fourth IEEE and IFIP International Conference on Wireless and Optical Communications Networks, Grand Hyatt, Singapore, 2007.

 

C5. V. Ataei, K. Jamshidi, and J. A. Salehi, "Sensitivity analysis of coherent ultrashort light pulse CDMA communication system with respect to dispersion," Asia-Pacific Optical and Wireless Communications (APOC), Wuhan, China, 2007.

 

C6. Salman Khaleghi, Sina Khaleghi, and Kambiz Jamshidi, "Power performance analysis of spectrally phase-encoded optical CDMA packet networks," IEEE International Conference on Signal Processing and Communication (ICSPC07), Dubai, UAE, 2007.

 

C7. K. Jamshidi, S. Preußler, A. Wiatrek, R. Henker, J. Klinger, and T. Schneider, "100 ns Quasi- Light-Storage of 8 bit data sequences at 1Gbps," Nonlinear Photonics Topical Meeting , Karlsruhe, Germany, 2010.

 

C8. K. Jamshidi, C.-A. Bunge and T. Schneider, "A proposal for a tunable light storage method based on Quasi-Light-Storage and frequency-to-time-conversion," Photonics in switching, Montery, California, 2010.

 

C9. K. Jamshidi, A. Wiatrek, C. Bersch, G. Onishchukov, G. Leuchs, C.-A. Bunge and T. Schneider, "Very large, tunable, positive and negative group delay for high-bandwidth signals,” European Conference On Communication (ECOC) 2010, Turin, Italy, 2010.

 

C10. S. Preußler, K. Jamshidi, A. Wiatrek, T. Schneider, "Almost Distortion Free Storage of 1Gbps/8bit optical packets for up to 100 bit lengths," European Conference On Communication (ECOC) 2010, Turin, Italy, 2010.

 

C11. K. Jamshidi, S. Preußler, A. Wiatrek, and T. Schneider, "All optical Quasi Light Storage: achievments and limitations," 12. ITG-Fachtagung Photonische Netze, Leipzig, 2011.

 

C12. S. Preussler, K. Jamshidi, A. Wiatrek and T. Schneider, "Very simple tunable optical data storage of 8Bit 1Gbps data packets up to 500ns," Conference on Lasers and Eletrooptics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies, Baltimore, 2011.

 

C13. K. Jamshidi, S. Meister, A. Al-Saadi and T. Schneider, "Reconfigurable spectral phase encoder in a silicon photonics platform," IX. ITG - Workshop Silicon Photonics, Nuremberg, Germany, 2011.

 

C14. A. Wiatrek, K. Jamshidi, S. Preussler, and T. Schneider, "Saturation and delay in broadband Brillouin slow-light," Slow and Fast Light conference 2011, Toronto, Canada, 2011.

 

C15. T. Schneider, S. Preußler, and K. Jamshidi, "Tunable light-storage for almost 1 Microsecond," Slow and Fast Light conference 2011, Toronto, Canada, 2011.

 

C16. S. Preußler, K. Jamshidi, A. Wiatrek, and T. Schneider, "Light storage enhancement by reducing the Brillouin bandwidth," Slow and Fast light conference 2011, Toronto, Canada, 2011.

 

C17. K. Jamshidi, S. Meister, A. Al-Saadi, H. J. Eichler, and T. Schneider, "Integration of a tunable, optical delay generator in a silicon photonics platform," Integrated Photonics Research conference 2011, Toronto, Canada, 2011.

 

C18. K. Jamshidi, S. Preußler, A. Wiatrek, and T. Schneider, "Wideband electrically tunabledispersion producer," to be presented in 13. ITG-Fachtagung Photonische Netze, Leipzig, 2012.

 

C19. M. Förster, K. Jamshidi, and C. A. Bunge, "Central monitoring of passive optical networks using optical code division multiplexing," 13. ITG-Fachtagung Photonische Netze, Leipzig, 2012.

 

C20. K. Jamshidi, S. Meister, B. A. Franke, O. Dyatlova, U. Woggon, A. Al-Saadi, H. J. Eichler, and T. Schneider " Compact electrically tunable delay generator on silicon," Conference on Lasers and Eletrooptics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies, 2012.

 

C21. K. Jamshidi, S. Meister, B. Franke, A. AlSaadi, S. Kupijai, and T. Schneider, “An Integratable Electrically Tunable Dispersion Trimming,” in Advanced Photonics Congress, Colorado, 2012.

 

C22. S. Preussler, A. Wiatrek, K. Jamshidi, and T. Schneider, "Increasing the Resolution of Optical Spectrometers for the Measurement of Advanced Optical Communication Signals," In European Conference and Exhibition on Optical Communication, Amsterdam, 2012.

 

C23. K.Jamshidi, E. Krune, K. Voigt, L. Zimmermann, K. Petermann, “ Timing Jitter of Optical Clock Distribution Induced by Photodetection,” in Optical Interconnects conf., Coronado, 2013.