Research

Metrics

Total number of publications
31 Journal articles,
35 Conference Proceedings,
3 Patents, 1 Book chapter

Check out my ResearchGate

Total citations on Scopus
603

H index
12

Publications

A) Peer-reviewed journal publications
  1. B. Fischer, M. Chemnitz*, B. MacLellan, P. Roztocki, R. Helsten, B. Wetzel, B. E. Little, S. T. Chu, D. Moss, J. Azaña, and R. Morandotti, “Autonomous on-chip interferometry for reconfigurable optical waveform generation,” Optica, accepted, 2021.
  2. R. Scheibinger, N. Lüpken, M. Chemnitz, K. Schaarschmidt, J. Kobelke, C. Fallnich, and M. A. Schmidt*, “Intra- and intermodal soliton fission in few-mode dispersion-engineered liquid-core fibers”, Scientific Reports, vol. 11, no. 1, p. 5270, 
2021
  3. K. Schaarschmidt*, J. Kobelke, T. Meyer, M. Chemnitz, and M. A. Schmidt, „Third Harmonic Generation with Tailored Modes in Liquid Core Fibers with Geometric Birefringence”, Optics Letters, vol. 45, no. 24, p. 6859, 2020.
  4. M. Chemnitz, S. Junaid, N. Walther, R. Scheibinger, K. Schaarschmidt, J. Kobelke, and M. A. Schmidt*, “Tailoring soliton fission at telecom wavelengths using composite-liquid-core fibers”, Optics Letters, vol. 45, no. 11, p. 2985, 2020.
  5. S. Junaid, K. Schaarschmidt, M. Chemnitz, S. Nolte, M. Chambonneau, and M. Schmidt*, “Tailoring modulation instabilities and four-wave mixing in dispersion-managed composite liquid-core fibers”, Optics Express, vol. 28, no. 3, p. 3097, 2020.
  6. X. Qi*, K. Schaarschmidt, M. Chemnitz, and M. A. Schmidt, “Essentials of resonance-enhanced soliton-based supercontinuum generation”, Optics Express, vol. 28, no. 2, p. 2557, 2020.
  7. C. Karras, M. Chemnitz, R. Heintzmann, and M. A. Schmidt*, “Impact of deuteration on the ultrafast nonlinear optical response of toluene and nitrobenzene”, Optics Express, vol. 27, no. 21, p. 29 491, 2019.
  8. S. Sciara, P. Roztocki, C. Rimoldi, M. Chemnitz, B. Fischer, L. R. Cortes, W. J. Munro, D. J. Moss, L. Caspani, C. Reimer, J. Azana, M. Kues, and R. Morandotti, “Generation and Processing of Complex Photon States with Quantum Frequency Combs”, IEEE Photonics Technology Letters, vol. 31, no. 23, p. 1862, 2019.
  9. K. Schaarschmidt*, H. Xuan, J. Kobelke, M. Chemnitz, I. Hartl, and M. A. Schmidt, “Long-term stable supercontinuum generation and watt-level transmission in liquid-core optical fibers”, Optics Letters, vol. 44, no. 9, p. 2236, 2019.
  10. S. C. Warren-Smith*, K. Schaarschmidt, M. Chemnitz, E. P. Schartner, H. Schneidewind, H. Ebendorff-Heidepriem, and M. A. Schmidt, “Tunable multi-wavelength third-harmonic generation using exposed-core microstructured optical fiber”, Optics Letters, vol. 44, no. 3, p. 626, 2019.
  11. M. Chemnitz*, C. Gaida, M. Gebhardt, F. Stutzki, J. Kobelke, A. Tünnermann, J. Limpert, and M. A. Schmidt, “Carbon chloride-core fibers for soliton mediated supercontinuum generation”, Optics Express, vol. 26, no. 3, p. 3221, 2018.
  12. M. Chemnitz*, R. Scheibinger, C. Gaida, M. Gebhardt, F. Stutzki, S. Pumpe, J. Kobelke, A. Tünnermann, J. Limpert, and M. A. Schmidt, “Thermodynamic control of soliton dynamics in liquid-core fibers”, Optica, vol. 5, no. 6, p. 695, 2018.
  13. M. Chemnitz*, M. Gebhardt, C. Gaida, F. Stutzki, J. Kobelke, J. Limpert, A. Tünnermann, and M. A. Schmidt, “Hybrid soliton dynamics in liquid-core fibres”, Nature Communications, vol. 8, no. 1, p. 42, 2017.
  14. M. Chemnitz, M. Zeisberger, and M. A. Schmidt*, “Performance limits of single nano-object detection with optical fiber tapers”, Journal of the Optical Society of America B, vol. 34, no. 9, p. 1833, 2017.
  15. Plidschun*, M. Chemnitz, and M. A. Schmidt, “Low-loss deuterated organic solvents for visible and near-infrared photonics”, Optical Materials Express, vol. 7, no. 4, p. 1122, 2017.
  16. S. Pumpe*, M. Chemnitz, J. Kobelke, and M. A. Schmidt, “Monolithic optofluidic mode coupler for broadband thermo- and piezo-optical characterization of liquids”, Optics Express, vol. 25, no. 19, p. 22 932, 2017.
  17. R. Sollapur, D. Kartashov, M. Zürch, A. Hoffmann, T. Grigorova, G. Sauer, A. Hartung, A. Schwuchow, J. Bierlich, J. Kobelke, M. Chemnitz, M. A. Schmidt, and C. Spielmann*, “Resonance-enhanced multi-octave supercontinuum generation in antiresonant hollow-core fibers”, Light: Science & Applications, vol. 6, no. 12, e17124, 2017.
  18. A. Tuniz*, M. Chemnitz, J. Dellith, S. Weidlich, and M. A. Schmidt, “Hybrid-Mode-Assisted Long-Distance Excitation of Short-Range Surface Plasmons in a Nanotip-Enhanced Step-Index Fiber”, Nano Letters, vol. 17, no. 2, p. 631, 2017.
  19. S. C. Warren-Smith*, M. Chemnitz, H. Schneidewind, R. Kostecki, H. Ebendorff-Heidepriem, T. M. Monro, and M. A. Schmidt, “Nanofilm-induced spectral tuning of third harmonic generation”, Optics Letters, vol. 42, no. 9, p. 1812, 2017.
  20. M. Chemnitz*, G. Schmidl, A. Schwuchow, M. Zeisberger, U. Hübner, K. Weber, and M. A. Schmidt, “Enhanced sensitivity in single-mode silicon nitride stadium resonators at visible wavelengths”, Optics Letters, vol. 41, no. 22, p. 5377, 2016.
  21. M. Chemnitz* and M. A. Schmidt, “Single mode criterion - a benchmark figure to optimize the performance of nonlinear fibers”, Optics Express, vol. 24, no. 14, p. 16 191, 2016.
  22. M. Chemnitz*, J. Wei, C. Jain, B. P. Rodrigues, T. Wieduwilt, J. Kobelke, L. Wondraczek, and M. A. Schmidt, “Octave-spanning supercontinuum generation in hybrid silver metaphosphate/silica step-index fibers”, Optics Letters, vol. 41, no. 15, p. 3519, 2016.
  23. S. C. Warren-Smith*, J. Wie, M. Chemnitz, R. Kostecki, H. Ebendorff-Heidepriem, T. M. Monro, and M. A. Schmidt, “Third harmonic generation in exposed-core microstructured optical fibers”, Optics Express, vol. 24, no. 16, p. 17 860, 2016.
  24. T. Wieduwilt*, M. Zeisberger, M. Thiele, B. Doherty, M. Chemnitz, A. Csaki, W. Fritzsche, and M. A. Schmidt, “Gold-reinforced silver nanoprisms on optical fiber tapers—A new base for high precision sensing”, APL Photonics, vol. 1, no. 6, p. 066 102, 2016.
  25. T. Meyer, M. Chemnitz, M. Baumgartl, T. Gottschall, T. Pascher, C. Matthäus, B. F. M. Romeike, B. R. Brehm, J. Limpert, A. Tünnermann, M. Schmitt, B. Dietzek, and J. Popp*, “Expanding multimodal microscopy by high spectral resolution coherent anti-Stokes Raman scattering imaging for clinical disease diagnostics.”, Analytical chemistry, vol. 85, no. 14, p. 6703, 2013.
  26. M. Chemnitz*, M. Baumgartl, T. Meyer, C. Jauregui, B. Dietzek, J. Popp, J. Limpert, and A. Tünnermann, “Widely tuneable fiber optical parametric amplifier for coherent anti-Stokes Raman scattering microscopy”, Optics Express, vol. 20, no. 24, p. 26583, 2012.
  27. M. Baumgartl*, M. Chemnitz, C. Jauregui, T. Meyer, B. Dietzek, J. Popp, J. Limpert, and A. Tünnermann, “All-fiber laser source for CARS microscopy based on fiber optical parametric frequency conversion”, Optics Express, vol. 20, no. 4, p. 4484, 2012.
B) Publications without peer-review process1. M. Chemnitz, “Soliton dynamics in liquid-core optical fibers”, dissertation, database Thuringia (db-thueringen.de, DOI: 10.22032/dbt.38265), 2019.2. M. Chemnitz, J. Wei, C. Jain, B. P. Rodrigues, L. Wondraczek, and M. Schmidt, “Externally tunable fibers for tailored nonlinear light sources”, SPIE Newsroom, 2017C) Collaborative book chapters1. C. Rimoldi, B. Fischer, L. Di Lauro, M. Chemnitz, A. Pasquazi, D. J. Moss, & R. Morandotti, “Ch. 9 – Dissipative solitons in microresonators”, Dissipative Kerr Solitons (published soon).D) Patents1. M. Chemnitz, B. Fischer, P. Roztocki, B. Wetzel, M. Kues, C. Rimoldi, B. MacLellan, L. Romero Cortes, J. Azana, Y. Jestin, R. Morandotti (2019): “System and method for optical information processing with a reconfigurable nonlinear optical network”, pending U.S. patent (application no. 63/051435) 2. M. Chemnitz, M.A. Schmidt (2018): “Verfahren zur Herstellung einer vollständig System-integrierbaren Flüssig-Kern-Faser und deren Verwendung”, Germany (Patent No. DE102018115194A). 3. M. Chemnitz, F. Stiehler (2004): “Ultrasonic detector for gaschromatography”, submitted as Germany patent (application no. DE102004009751.8), withdrawn in 2006 due to missing funding body.These authors contributed equally to the work.* Corresponding author.