Publications

1–37

1.
Turitsyna E, Smirnov S, Sugavanam S, et al. The laminar-turbulent transition in a fibre laser. Nature Photonics. 2013;7(10):783-786.
2.
Sugavanam S, Tarasov N, Shu X, Churkin DV. Narrow-band generation in random distributed feedback fiber laser. Optics express. 2013;21(14):16466-16472.
3.
Sugavanam S, Tarasov N, Churkin D, Turitsyn SK. Narrow-band radiation in the random distributed feedback fiber laser. In: European Conference and Exhibition on Optical Communication. European Conference and Exhibition on Optical Communication. ; 2012:P7-01.
4.
Sugavanam S, Yan Z, Kamynin V, Kurkov A, Zhang L, Churkin D. Multiwavelength generation in a random distributed feedback fiber laser using an all fiber Lyot filter. Optics express. 2014;22(3):2839-2844.
5.
Sugavanam S, Yan Z, Kamynin V, Kurkov AS, Zhang L, Churkin D. Lyot-filter-based multiwavelength random distributed feedback fiber laser. In: SPIE Photonics Europe. SPIE Photonics Europe. ; 2014:91351C-91351C.
6.
Sugavanam S, Fabbri S, Le ST, et al. Real-time heterodyned measurements of spatio-frequency dynamics in fibre lasers. In: Nonlinear Photonics. Nonlinear Photonics. ; 2014:NTu4A-4.
7.
Laser FF, Sugavanam S. Workshop on Coherent Phenomena in Disordered Optical Systems 26-30 May 2014, Trieste, Italy.
8.
Churkin D, Sugavanam S, Tarasov N, et al. Stochasticity, periodicity and localized light structures in partially mode-locked fibre lasers. Nature communications. 2015;6.
9.
Gorbunov O, Sugavanam S, Churkin D. Revealing statistical properties of quasi-CW fibre lasers in bandwidth-limited measurements. Optics express. 2014;22(23):28071-28076.
10.
Gorbunov OA, Sugavanam S, Churkin DV. Influence of the generated power, measurement bandwidth, and noise level on intensity statistics of a quasi-CW Raman fiber laser. In: SPIE Photonics Europe. SPIE Photonics Europe. ; 2014:913613-913613.
11.
Gorbunov OA, Sugavanam S, Churkin DV. Intensity dynamics and statistical properties of random distributed feedback fiber laser. Optics letters. 2015;40(8):1783-1786.
12.
Chipouline A, Sugavanam S, Petschulat J, Pertsch T. Metamaterials with interacting Metaatoms. arXiv preprint arXiv:12056839. 2012.
13.
Chipouline A, Sugavanam S, Petschulat J, Pertsch T. Extension of the Multipole Approach to Random Metamaterials. Advances in OptoElectronics. 2012;2012.
14.
Chipouline A, Sugavanam S, Fedotov V, Nikolaenko A. Analytical model for active metamaterials with quantum ingredients. Journal of Optics. 2012;14(11):114005.
15.
Chipouline A, Sugavanam S, Fedotov V, Nikolaenko A, Pertsch T. Analytical model for nonlinear response of carbon nanotubes enhanced by a plasmonic metamaterial. arXiv preprint arXiv:11082646. 2011.
16.
Sugavanam S, Mou C, Peng J, Churkin DV. Pulse-to-pulse spectral evolution of breathing bound solitons in a mode-locked fiber laser. In: CLEO: Science and Innovations. CLEO: Science and Innovations. ; 2015:STh3L-2.
17.
Sugavanam S, Fabbri S, Son TL, et al. Real-time heterodyne-based measurements of fiber laser spectral dynamics. In: CLEO: Science and Innovations. CLEO: Science and Innovations. ; 2015:JTh2A-50.
18.
Sugavanam S, Tarasov N, Wabnitz S, Churkin DV. Ginzburg–Landau turbulence in quasi-CW Raman fiber lasers. Laser \& Photonics Reviews. 2015;9(6):L35-L39.
19.
Sugavanam S, Churkin DV. Real-time Spectral Characterization of Random Fiber Lasers using a Scanning Fabry-Perot Interferometer. In: The European Conference on Lasers and Electro-Optics. The European Conference on Lasers and Electro-Optics. ; 2015:CJ\_P\_8.
20.
Sugavanam S, Tarasov N, Wabnitz S, Churkin D. Optical Turbulence and Polarization Rogue Waves in Experiments and Ginzburg-Landau Model of Quasi-CW Fiber Laser. In: European Quantum Electronics Conference. European Quantum Electronics Conference. ; 2015:EF\_P\_6.
21.
Churkin DV, Sugavanam S, Vatnik ID, et al. Recent advances in fundamentals and applications of random fiber lasers. Advances in Optics and Photonics. 2015;7(3):516-569.
22.
Tarasov N, Sugavanam S, Churkin D. Spatio-temporal generation regimes in quasi-CW Raman fiber lasers. Optics express. 2015;23(19):24189-24194.
23.
Sugavanam S, El Taher A, Churkin D, Turitsyn S. Spatio-temporal dynamics of a Composite Soliton regime in a Passively Mode Locked Fiber Laser. In: The European Conference on Lasers and Electro-Optics. The European Conference on Lasers and Electro-Optics. ; 2015:CJ\_4\_2.
24.
Tarasov N, Sugavanam S, Churkin D. Spatio-temporal Dynamics of Raman Fibre Lasers. In: European Quantum Electronics Conference. European Quantum Electronics Conference. ; 2015:EF\_P\_29.
25.
Tarasov N, Sugavanam S, Churkin D. Revealing spatio-temporal regimes of generation in raman fiber lasers. In: Spatiotemporal Complexity in Nonlinear Optics (SCNO), 2015. Spatiotemporal Complexity in Nonlinear Optics (SCNO), 2015. ; 2015:1-3.
26.
Sugavanam S, Zulkifli M, Churkin D. Multi-wavelength erbium/Raman gain based random distributed feedback fiber laser. Laser Physics. 2015;26(1):015101.
27.
Sugavanam S, Tarasov N, Churkin DV. Real-Time Intensity Domain Characterization of Fibre Lasers Using Spatio-Temporal Dynamics. Applied Sciences. 2016;6(3):65.
28.
Churkin DV, Sugavanam S. Spatio-temporal intensity dynamics of passively mode-locked fiber laser. In: SPIE LASE. SPIE LASE. ; 2016:97320I-97320I.
29.
Sugavanam S, Fabbri S, Le ST, et al. Real-time high-resolution heterodyne-based measurements of spectral dynamics in fibre lasers. Scientific reports. 2016;6.
30.
Chattopadhyay AK, Nasiev D, Sugavanam S, Tarasov N, Churkin D. Laminar-Turbulent Transition in Raman Fiber Lasers: A First Passage Statistics Based Analysis. arXiv preprint arXiv:160600429. 2016.
31.
Sugavanam S, El-Taher AE, Woodward RI, Kelleher EJ, Churkin DV. Pulse Bunching in the Soliton Rain Regime of an Ultralong Fibre Laser Mediated by Forward Brillouin Scattering. In: CLEO: QELS\_Fundamental Science. CLEO: QELS\_Fundamental Science. ; 2016:FTu4A-4.
32.
Gorbunov O, Sugavanam S, Vatnik I, Churkin D. Statistical properties of radiation of multiwavelength random DFB fiber laser. Optics Express. 2016;24(17):19417-19423.
33.
Chipouline A, Sugavanam S, Fedotov V, Nikolaenko A. Simple Analytical description of CNT nonlinear response enhanced by metamaterials. 2012.
34.
Peng J, Tarasov N, Sugavanam S, Churkin D. Rogue waves generation via nonlinear soliton collision in multiple-soliton state of a mode-locked fiber laser. Optics Express. 2016;24(19):21256-21263.
35.
Sugavanam S, Fabbri S, Le ST, et al. Supplementary information: Real-time high-resolution heterodyne-based measurements of spectral dynamics in fibre lasers.
36.
Peng J, Tarasov N, Sugavanam S, Churkin D. Extremely Pulsating Solitons in a Mode-locked Fiber Laser. In: ECOC 2016; 42nd European Conference on Optical Communication; Proceedings of. ECOC 2016; 42nd European Conference on Optical Communication; Proceedings of. ; 2016:1-3.
37.
Peng J, Sugavanam S, Tarasov N, Churkin D. Simultaneously occurring Spectral and Temporal Rogue Waves in a Passively Mode-locked Fiber Laser. In: International Conference on Fibre Optics and Photonics. International Conference on Fibre Optics and Photonics. ; 2016:Tu2E-4.