Peer-reviewed journal publications

  1. S. Perret, G. Fanjoux, L. Bigot, J. Fatome, G.  Millot, J.M. Dudley, and T. Sylvestre, “Supercontinuum Generation by Intermodal Four-Wave Mixing in a Step-Index Few-Mode Fibre,” APL Photonics 4, 022905 (2019). https://doi.org/10.1063/1.5045645
  2. S. Perret, C. Poudel, A.N. Ghosh, G. Fanjoux, L. Provino, T. Taunay, A. Monteville, D. Landais, C.F. Kaminski, J.M. Dudley, and T. Sylvestre, “Silica-based photonic crystal fiber for the generation of broad band UV radiation.” OSA Continuum 3(1), 31-42 (2020). https://doi.org/10.1364/OSAC.3.000031
  3. S. Rao D.S., R.D. Engelsholm, I.B. Gonzalo, B. Zhou, P. Bowen, P.M. Moselund, O. Bang, and M. Bache, ”Ultra-low noise Supercontinuum Generation with Flat Near-zero Normal Dispersion Fiber”, Optics Letters 44(9), 2217-2219 (2019). https://doi.org/10.1364/OL.44.002216
  4. K.J. Kaltenecker, S. Rao D.S., M. Rasmussen, H.B. Lassen, E.J.R. Kelleher, E. Krauss, B. Hecht, N.A. Mortensen, L. Grüner Nielsen, C. Markos, N. Stenger, O. Bang, and P.U. Jepsen, “Near-Field Spectroscopy using a Low-noise Supercontinuum Source”, Light: Science & Applications (submitted 2020)
  5. S. Rao D.S., M. Jensen, L. Grüner-Nielsen, J.T. Olsen, P. Heiduschka, B. Kemper, J. Schnekenburger, M. Glud, M. Mogensen, N.M. Israelsen, and O. Bang, “Shot-noise limited, supercontinuum based optical coherence tomography, Light: Science & Applications (submitted 2020)
  6. S. Rao D.S., T. Karpate, A.N. Ghosh, M. Klimczak, D. Pysz, R. Buczynski, C. Billet, O. Bang, J.M. Dudley, and T. Sylvestre, “Comparison of noise properties of the SC generated in PM and non-PM ANDi tellurite fibers using DFT technique”, Optics Letters (to be submitted)
  7. S. Christensen, S. Rao D.S., O. Bang, and M. Bache, “Directional supercontinuum generation: the role of the soliton”. J. Opt. Soc. Am. B 36(2), A131-A138 (2019). https://doi.org/10.1364/JOSAB.36.00A131
  8. S. Rao D.S., S. Christensen, M. Bache, and O. Bang, “The soliton boomerang”, Optics Letters (to be submitted).
  9. Y. Chen, S. Chen, R. Sidharthan, C.J. Cheng, K. Liu, S. Rao D.S., O. Bang, Q. Wang, D.Y. Tang, S. YooHigh Energy Ultrafast Laser at 2 mu m Using Dispersion Engineered Thulium-Doped Fiber, IEEE Photonics Journal 11(6), 7104412 (2019). https://doi.org/10.1109/JPHOT.2019.2945928
  10. M.K. Dasa, C. Markos, M. Maria, C.R. Petersen, P.M. Moselund, and O. Bang O., “High pulse energy supercontinuum laser for spectroscopic optical resolution photoacoustic imaging of lipids in the 1650-1850 nm window”. Biomed. Opt. Exp. 9(4), 1762-1770 (2018). https://doi.org/10.1364/BOE.9.001762
  11. M.K. Dasa, C. Markos, J. Janting, and O. Bang, "Multispectral photoacoustic sensing for accurate glucose monitoring using a supercontinuum laser". J. Opt. Soc. Am. B 36(2), A61-A65 (2019). https://doi.org/10.1364/JOSAB.36.000A61
  12. M.K. Dasa, G. Nteroli, P. Bowen, G. Messa, Y. Feng, C.R. Petersen, S. Koutsikou, M. Bondu, P.M. Moselund, A. Podolenau, A. Bradu, C. Markos, and O. Bang, “All-fiber supercontinuum laser for in vivo multi-spectral photoacoustic microscopy of lipids in the extended near-infrared”. Photoacoustics 18, 100163 (2020). https://doi.org/10.1016/j.pacs.2020.100163
  13. G. Nteroli, M.K. Dasa, G. Messa, S. Koutsikou, M. Bondu, P.M. Moselund, C. Markos, O. Bang, A. Podoleanu, and A. Bradu, “Two Octaves Spanning Photoacoustic Microscopy”, Journal of Selected Topics in Quantum Electronics (submitted 2020).
  14. A.I. Adamu, M.K. Dasa, O. Bang, and C. Markos, “Multi-Species Continuous Gas Detection with Supercontinuum Laser at Telecommunication Wavelength”, IEEE Sensors Journal 20(18), 10591-10597 (2020). https://doi.org/10.1109/JSEN.2020.2993549
  15. K. Kwarkye, M. Jensen, M.K. Dasa, G. Woyessa, D. Jain, P. Bowen, P.M. Moselund, R. Sidharthan, S. Chen, S. Yoo, C.R. Petersen, and O. Bang, “Influence of pulse duration and repetition rate on mid-IR cascaded supercontinuum”, Optics Letters 45(18) 5161-5164 (2020). https://doi.org/10.1364/OL.401274
  16. K. Kwarkye, M. Jensen, R.D. Engelsholm, M.K. Dasa, D. Jain, P. Bowen, P.M. Moselund, C.R. Petersen, and O. Bang, “In-amplifier and cascaded mid-infrared supercontinuum sources with low noise through gain-induced soliton spectral alignment”, Scientific Reports 10(1), 8230 (2020). https://doi.org/10.1038/s41598-020-65150-6
  17. G. Woyessa, K. Kwarkye, M.K. Dasa, C.R. Petersen, R. Sidharthan, S. Chen, S. Yoo, and O. Bang, “Power stable 1.5-10.5 µm cascaded mid-infrared supercontinuum laser without thulium amplifier”, Optics Letters (submitted 2020)
  18. A.I. Adamu, Y. Wang, Md.S. Habib, M.K. Dasa, J.E. Antonio-Lopez, R. Amezcus-Correa, O. Bang, and C. Markos, “Multi-wavelength high energy gas-filled fiber Raman laser spanning from 1.53 µm to 2.4 µm”, Optics Letters (accepted 24/11)
  19. Y. Wang, M.K. Dasa, A.I. Adamu, J.E. Antonio-Lopez, M.S. Habib, R. Amezcua-Correa, O. Bang, and C. Markos, ”High pulse energy and quantum efficiency mid-infrared gas Raman fiber laser targeting CO 2 absorption at 4.2 µm”. Optics Letters 45(7), 1938-1941 (2020). https://doi.org/10.1364/OL.389613
  20. Y. Wang, A.I. Adamu, M.K. Dasa, J.E. Antonio-Lopez, Md.S. Habib, R. Aamezcua-Correa, O. Bang, and C. Markos, “Noise performance and long-term stability of near- and mid-IR gas-filled fiber Raman lasers”, Optics Letters (submitted 2020)
  21. E. Genier, A.N. Ghosh, S. Bobba, P. Bowen, P.M. Moselund, O. Bang, J.M. Dudley, and T. Sylvestre, Cross-Phase Modulation Instability in PM ANDi Fiber-Based Supercontinuum Generation, Optics Letters 45(13), 3545-3548 (2020). https://doi.org/10.1364/OL.397106
  22. E. Genier, P. Bowen, T. Sylvestre, J.M. Dudley, P. Moselund, and O. Bang, Amplitude noise and coherence degradation of femtosecond supercontinuum generation in all-normal-dispersion fibers, J. Opt. Soc. Am. B 36(2), A161-A167 (2019). https://doi.org/10.1364/JOSAB.36.00A161
  23. R.F. Laine, T. Sinnige, K.Y. Ma, A.J. Haack, C. Poudel, P. Gaida, N. Curry, M. Perni, E.A.A Nollen,C.M. Dobson, M. Vendruscolo, G.S. Kaminski Schierle, C.F. Kaminski, “Fast Fluorescence Lifetime Imaging Reveals the Aggregation Processes of α-Synuclein and Polyglutamine in Aging Caenorhabditis elegans”. ACS Chemical Biology 14(7), 1628–1636 (2019). https://doi.org/10.1021/acschembio.9b00354
  24. C. Poudel, I. Mela, and C.F. Kaminski, ”High-throughput, multi-parametric, and correlative fluorescence lifetime imaging”. Methods and Applications in Fluorescence 8(2), 24005 (2020). https://doi.org/10.1088/2050-6120/ab7364
  25. S. Collins, F. Gielen, L.V. Vliet, M. Janeček, C. Poudel, S. Wagner-Valladolid, C. Michel, C.F. Kaminski, D.R. Spring, F. Hollfelder, and G.S. Kaminski-Schierle, “A unified in vitro to in vivo fluorescence lifetime screening platform yields amyloid β aggregation inhibitors”. Nature Chemistry (submitted 2020).
  26. M.C. Hardenberg, T. Sinnige, S. Casford, S. Dada, C. Poudel, L. Robinson, M. Fuxreiter, C.F. Kaminski, G.S. Kaminski-Schierle, E.A.A. Nollen, C.M. Dobson, and M. Vendruscolo, “Observation of an a-synuclein liquid droplet state and its maturation into Lewy body-like assemblies”. Journal of Molecular Cell Biology (submitted 2020).
  27. C. Huang, S. Wagner-Valladolid, A.D. Stephens, R. Jung, C. Poudel, T. Sinnige, M.C. Lechler, N. Schlörit, M. Lu, R.F. Laine, C.H. Michel, M. Vendruscolo, C.F. Kaminski, G.S. Kaminski-Schierle, and D.C. David, ”Intrinsically aggregation-prone proteins form amyloid-like aggregates and contribute to tissue aging in Caenorhabditis elegans”. ELife 8, 1–22 (2019). https://doi.org/10.7554/eLife.43059
  28. C. Hockings, C. Poudel, K.A. Feeney, C.L. Novo, M.S. Hamouda, I. Mela, D. Fernandez-Antoran, P.P. Vallejo-Ramirez, P.J. Rugg-Gunn, K. Chalut, C.F. Kaminski, G. Kaminski-Schierle, “Illuminating chromatin compaction in live cells and fixed tissues using SiR-DNA fluorescence lifetime”. BioRxiv, 2020.05.02.073536. to be submitted to a journal (2020). https://doi.org/10.1101/2020.05.02.073536
  29. M.H. Teplensky, M. Fantham, C. Poudel, C. Hockings, M. Lu,A. Guna, M. Aragones-Anglada, P.Z. Moghadam, P. Li, O.K. Farha, S.B.Q. Fernandez, F.M. Richards, D.I. Jodrell, G. Kaminski Schierle, C.F. Kaminski, D. Fairen-Jimenez, “A Highly Porous Metal-Organic Framework System to Deliver Payloads for Gene Knockdown”. Chem 5(11), 2926–2941 (2019). https://doi.org/10.1016/j.chempr.2019.08.015
  30. I. Mela, C. Poudel, M. Anaya, G. Delport, K. Frohna, S. Macpherson, T. Doherty, S.D. Stranks, and C.F. Kaminski, “Revealing nanomechanical domains and their transient behavior in triple cation perovskite films”. Advanced Materials (to be submitted 2020).
  31. L. Hecker, W. Wenyu, I. Mela, C. Poudel, G. Soavi, Y.Y. Huang, and C.F. Kaminski, “Guided assembly and patterning of intrinsically fluorescent amyloid fibers with long-range order”. Nano Letters (submitted 2020).
  32. C. Poudel and C.F. Kaminski, ”Supercontinuum radiation in fluorescence microscopy and biomedical imaging applications”. J. Opt. Soc. Am. B 36(2), A139 (2019). https://doi.org/10.1364/JOSAB.36.00A139
  33. G. Li, M. Fu, Y. Zheng, and X. Guan, " TiO2 microring resonators with high Q and compact footprint fabricated by a bottom-up method", Optics Letters 45(18), 5012-5015 (2020). https://doi.org/10.1364/OL.400644
  34. Y. Wang, J. Li, L. Hong, G. Li, F. Liu, X. Zhou, Y. Liu, “Coexistence of dissipative soliton and stretched pulse in dual-wavelength mode-locked Tm-doped fiber laser with strong third-order dispersion”, Optics Express 26(14), 18190-18201 (2018). https://doi.org/10.1364/OE.26.018190
  35. A.N. Ghosh, M. Meneghetti, C.R. Petersen, O. Bang, L. Brilland, S. Venck, J. Troles, J.M. Dudley, and T. Sylvestre, “Chalcogenide-glass polarization-maintaining photonic crystal fiber for mid-infrared supercontinuum generation”, Journal of Physics: Photonics 1(4), 044003 (2019). https://doi.org/10.1088/2515-7647/ab3b1
  36. C.R. Petersen, M.B. Lotz, G. Woyessa, A.N. Ghosh, T. Sylvestre, L. Brilland, J. Troles, M.H. Jakobsen, R. Taboryski, O. Bang, Nanoimprinting and Tapering of Chalcogenide Photonic Crystal Fibers for Cascaded Supercontinuum Generation, Optics Letters 44(22), 5505-5508 (2019). https://doi.org/10.1364/OL.44.005505
  37. S. Venck, F. St-Hilaire, L. Brilland, A.N. Ghosh, R. Chahal, C. Caillaud, M. Meneghetti, J. Troles, F. Joulain, S. Cozic, S. Poulain, G. Huss, M. Rochette, J.M. Dudley, and T. Sylvestre, “2-10 μm mid-infrared fiber-based supercontinuum laser source : experiment and simulation”, Laser Photonics Rev. 14, 2000011 (2020). https://doi.org/10.1002/lpor.202000011
  38. A.N. Ghosh, M. Klimczak, R. Buczynski, J.M. Dudley, and T. Sylvestre, "Supercontinuum generation in heavy-metal oxide glass based suspended-core photonic crystal fibers", J. Opt. Soc. Am. B 35, 2311-2316 (2018). https://doi.org/10.1364/JOSAB.35.002311
  39. M. Klimczak, D. Dobrakowski, A.N. Ghosh, G. Stępniewski, D. Pysz, G. Huss, T. Sylvestre, and R. Buczyński, "Nested capillary anti-resonant silica fiber with mid-infrared transmission and low bending sensitivity at 4000 nm". Optics Letters 44(17), 4395-4398 (2019). https://doi.org/10.1364/OL.44.004395
  40. X. Forestier, T. Karpate, G. Huss, V. Tombelaine, G. Stepniewski, A. Anuszkiewicz, R. Kasztelanic, A. Filipkowski, D. Pysz, M. Klimczak, and R. Buczynski, "Supercontinuum generation in nanostructured core gradient index fiber". Applied Nanoscience 10, 1997–2005 (2020). https://doi.org/10.1007/s13204-020-01319-9
  41. M. Meneghetti, X. Forestier, C.R. Petersen, R. Kasztelanic, M. Klimczak, O. Bang, R. Buczynski, and J. Troles, “Graded Index Chalcogenide Fibers with Nanostructured Core”, Advanced Photonics Research (submitted 07-10-2020).
  42. X. Forestier, J. Cimek, I. Kujawa, R. Kasztelanic, D. Pysz, K. Orliński, R. Stępień, and R. Buczyński, “Study of SiO2-PbO-CdO-Ga2O3 glass system for mid-infrared optical elements”. Journal of Non Crystalline Solids 503-504, 52-61 (2019). https://doi.org/10.1016/j.jnoncrysol.2018.09.019
  43. J. Cimek, X. Forestier, R. Stepien, M. Klimczak, and R. Buczynski, ”Synthesis conditions of ZBLAN glass for mid-infrared optical components”. Photonics Letters of Poland 10(1), 8-10 (2018). https://doi.org/10.4302/plp.v10i1.804
  44. T. Karpate, G. Stepniewski, D Pysz, A. Rampur, Y. Stepanenko, R. Buczynski, and M. Klimczak, "Soliton detuning of 68.5 THz in the near-infrared in a highly nonlinear suspended core tellurite fiber". J. Opt. Soc. Am. B 37(5), 1502-1509 (2020). https://doi.org/10.1364/JOSAB.389303
  45. M. Klimczak, D. Michalik, G. Stępniewski, T. Karpate, J. Cimek, X. Forestier, R. Kasztelanic, D. Pysz, R. Stępień, and R. Buczyński, "Coherent supercontinuum generation in tellurite glass regular lattice photonic crystal fibers", J. Opt. Soc. Am. B 36(2), A112-A124 (2019). https://doi.org/10.1364/JOSAB.36.00A112
  46. J. Kilgus, G. Langer, K. Duswald, R. Zimmerleiter, I. Zorin, T. Berer, and M. Brandstetter, "Diffraction limited mid-infrared reflectance microspectroscopy with a supercontinuum laser". Optics Express 26(23), 30644-30654 (2018). https://doi.org/10.1364/OE.26.030644
  47. I. Zorin, R. Su, A. Prylepa, J. Kilgus, M. Brandstetter, and B. Heise, "Mid-infrared Fourier-domain optical coherence tomography with a pyroelectric linear array". Optics Express 26(25), 33428-33439 (2018). https://doi.org/10.1364/OE.26.033428
  48. I. Zorin, R. Su, B. Heise, B. Lendl, and M. Brandstetter, "Correlative infrared optical coherence tomography and hyperspectral chemical imaging". J. Opt. Soc. Am. A 37(9), B19-B26 (2020). https://doi.org/10.1364/JOSAA.393580
  49. I. Zorin, P. Gattinger, M. Brandstetter, and B. Heise, "Dual-band infrared optical coherence tomography using a single supercontinuum source", Optics Express 28(6), 7858-7874 (2020). https://doi.org/10.1364/OE.386398
  50. I. Zorin, J. Kilgus, K. Duswald, B. Lendl, B. Heise, and M. Brandstetter, “Sensitivity-Enhanced Fourier Transform Mid-Infrared Spectroscopy Using a Supercontinuum Laser Source”. Applied Spectroscopy 74(4), 485–493 (2020). https://doi.org/10.1177/0003702819893364
  51. P. Gattinger, J. Kilgus, I. Zorin, G. Langer, R. Nikzad-Langerodi, C. Rankl, M. Gröschl, and M. Brandstetter, "Broadband near-infrared hyperspectral single pixel imaging for chemical characterization". Optics Express 27(9), 12666-12672 (2019). https://doi.org/10.1364/OE.27.012666
  52. M. Meneghetti, C. Caillaud, R. Chahal, E. Galdo, L. Brilland, J. Adam, and J. Troles, “Purification of Ge-As-Se ternary glasses for the development of high quality microstructured optical fibers”, Journal of Non Crystalline Solids 503-504, 84-88 (2019). https://doi.org/10.1016/j.jnoncrysol.2018.09.028
  53. Y. Wu, M. Meneghetti, J. Troles, and J. Adam, “Chalcogenide Microstructured Optical Fibers for Mid-Infrared Supercontinuum Generation: Interest, Fabrication, and Applications,” Applied Sciences 8(9), 1637 (2018). https://doi.org/10.3390/app8091637
  54. Z. Eslami, P. Ryczkowski, C. Amiot, L. Salmela, and G. Genty, "High-power short-wavelength infrared supercontinuum generation in multimode fluoride fiber". J. Opt. Soc. Am. B 36(2), A72-A78 (2019). https://doi.org/10.1364/JOSAB.36.000A72
  55. Z. Eslami, P. Ryczkowski, L. Salmela, and G. Genty, "Low-noise octave-spanning mid-infrared supercontinuum generation in a multimode chalcogenide fiber". Optics Letters 45(11), 3103-3106 (2020). https://doi.org/10.1364/OL.392282
  56. A. Saleh, A. Aalto, P. Ryczkowski, G. Genty, and J. Toivonen, "Short-range supercontinuum-based lidar for temperature profiling". Optics Letters  44(17), 4223-4226 (2019). https://doi.org/10.1364/OL.44.004223
  57. A. Saleh, P. Ryczkowski, G. Genty, and J. Toivonen, "Supercontinuum-based hyperspectral lidar for online combustion diagnostics". Optics Express (submitted)
Updated by Leah Strauss on 1 December 2020
Updated by Leah Strauss on 1 December 2020

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 722380

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27 APRIL 2024