Selected peer-reviewed journal publications:

  • Roger Wüst, Daniel Hug, Benjamin Rudin, Florian Emaury, and Bojan Resan, “250 fs, 130 mW Laser With Tunable Pulse Repetition Rate From 0.5 to 1.3 GHz,” IEEE Photonics Journal 14(5), October 2022.
  • Lütolf, F. Friebel, I. Kuznetzov, B. Rudin, F. Emaury, B. Gallinet, R. Ferrini, G. Basset, and B. Resan, “Wafer-scale replicated gratings for compressing ultrafast laser pulses at telecom wavelengths,” Optics Continuum, 1(5), 1051-1059, May 2022.
  • Dax, E. Divall, C. P. Hauri, M. Huppert, A. Romann, M. Schaedler, C. Vicario, A. Cavalieri, B. Resan, and A. Trisorio, “Arrival time fluctuation of the SwissFEL photocathode laser: characterization by a single color balanced cross correlator,” Optics Express, 30(9), 15495-15511, April 2022.
  • Romain Carreto, Beat Lüscher, Ronald Holtz and Bojan Resan, “Towards Ultrafast Laser Micromachining of X-Ray Gratings and Creation of Sub-Micron Hole Patterns, Comparison of Results with Bessel and Gaussian Beams,” Frontiers in Physics, 10 March 2022, https://doi.org/10.3389/fphy.2022.809212
  • Loescher, P. Oldorf, R. Peters, W. Pallmann, B. Resan, F. Lesparre, P. Beaure D’Augeres, X. Delen, F. Balembois, P. Georges, R. Giedl-Wagner, R. de Loor, T. Graf, and M. A. Ahmed, “Efficient and high-throughput ablation of platinum using high-repetition rate radially and azimuthally polarized sub-picosecond laser pulses,” Optics Express 29(13), 19551 – 19565, June 2021.
  • Bojan Resan, Raffael Auchli, Vesna Villamaina, and Ronald Holtz, “Dynamic fiber delivery of 3 W 160 fs pulses with photonic crystal hollow core fiber patchcord,” Optics Express 25(20), 24553-24558, October 2017.
  • Andreas Rohrbacher, Omar E. Olarte, Vesna Villamaina, Pablo Loza-Alvarez, and Bojan Resan, “Multiphoton imaging with blue-diode-pumped SESAM-modelocked Ti:sapphire oscillator generating 5 nJ 82 fs pulses,” Optics Express 25(9), 10677-106784, May 2017.
  • Tomasz M. Kardaś, Michał Nejbauer, Paweł Wnuk, Bojan Resan, Czesław Radzewicz, and Piotr Wasylczyk, “Full 3D modelling of pulse propagation enables efficient nonlinear frequency conversion with low energy laser pulses in a single-element tripler,” Nature Scientific Reports 7, 42889, 22 February 2017.
  • Bojan Resan, Sarah Kurmulis, Vesna Markovic, Kurt J. Weingarten, “1% rms amplitude noise from a 30 fs continuum based source tunable from 800 to 1250 nm,” Optics Express 24(13), 14960-14965, June 2016.
  • Resan, S. Kurmulis, Z. Y. Zhang, A. E. H. Oehler, V. Markovic, M. Mangold, T. Suedmeyer, U. Keller, R. A. Hogg, and K. J. Weingarten, “10  GHz pulse repetition rate Er:Yb:glass laser modelocked with quantum dot semiconductor saturable absorber mirror,” Applied Optics 55(14), 3776-3780, May 2016.
  • Beat Neuenschwander, Beat Jaeggi, Markus Zimmermannn, Vesna Markovic, Bojan Resan, Kurt Weingarten, Ronny de Loor, and Lars Penning, “Laser surface structuring with 100 W of average power and sub-ps pulses,” Journal of Laser Applications 28(2), May 2016.
  • Lesparre, Jean Thomas Gomes, Xavier Délen, Igor Martial, Julien Didierjean, Wolfgang Pallmann, Bojan Resan, Frederic Druon, Francois Balembois, and Patrick Georges, “Yb:YAG single-crystal fiber amplifiers for picosecond lasers using divided pulse amplification technique,” Optics Letters 41(7), 1628-1631, March 2016.
  • Gürel, V. J. Wittwer, M. Hoffmann, C. J. Saraceno, S. Hakobyan, B. Resan, A. Rohrbacher, K. Weingarten, S. Schilt, and T. Südmeyer, “Green-diode-pumped femtosecond Ti:Sapphire laser with up to 450 mW average power,” Optics Express 23, 30043-30048, November 2015.
  • Vesna Markovic, Andreas Rohrbacher, Peter Hofmann, Wolfgang Pallmann, Simonette Pierrot, and Bojan Resan, “160 W 800 fs Yb:YAG single crystal fiber amplifier without CPA,” Optics Express 23, 25883-25888, October 2015.
  • Lesparre, J.-T. Gomes, X. Délen, I. Martial, J. Didierjean, W. Pallmann, B. Resan, M. Eckerle, T. Graf, M. Abdou Ahmed, F. Druon, F. Balembois, and P. Georges, “High-power Yb:YAG single-crystal fiber amplifiers for femtosecond lasers in cylindrical polarization,” Optics Letters 40, 2517-2520, June 2015.
  • Bojan Resan, Rodrigo Aviles, Sarah Kurmulis, Jacob Licea-Rodriguez, Felix Brunner, Andreas Rohrbacher, David Artigas, Pablo Loza-Alvarez, Kurt J. Weingarten, “Two-photon fluorescence imaging with 30 fs laser system tunable around 1 micron,” Optics Express 22, 16456-16461, June 2014.
  • Hillerkuss, T. Schellinger, M. Jordan, C. Weimann, F. Parmigiani, B. Resan, K. Weingarten, S. Ben-Ezra, B. Nebendahi, C. Koos, W. Freude, and J. Leuthold, “High-quality optical frequency comb by spectral slicing of spectra broadened by SPM,” IEEE Photonics Journal 5, 7201011, October 2013.
  • J. Wittwer, R. van der Linden, B. W. Tilma, B. Resan, K. J. Weingarten, T. Südmeyer, and U. Keller, “Sub-60-fs timing jitter of a SESAM modelocked VECSEL,” IEEE Photonics Journal 5, 1400107, February 2013.
  • Hillerkuss, …, B. Resan, et al., “Single-laser 32.5 Tbit/s Nyquist WDM transmission,” Journal of Optical Communications and Networking 4, 715, September 2012.
  • Y. Zhang, A. E. H. Oehler, B. Resan, S. Kurmulis, K. J. Zhou, Q. Wang, M. Mangold, T. Suedmeyer, U. Keller, K. J. Weingarten, and R. A. Hogg, “1.55 µm InAs/GaAs quantum dots and high repetition rate quantum dot SESAM mode-locked laser,” Nature Scientific Reports 2, 477, June 2012.
  • George J. Tserevelakis, Stylianos Psycharakis, Bojan Resan, Felix Brunner, Evagelia Gavgiotaki, Kurt J. Weingarten, George Filippidis, “Femtosecond laser nanosurgery of sub-cellular structures in HeLa cells by employing Third Harmonic Generation imaging modality as diagnostic tool,” Journal of Biophotonics, 5, 200-207, 2012.
  • David Hillerkuss, …, Bojan Resan, … et al., “26 Tbit/s line-rate super-channel transmission utilizing all-optical fast Fourier transform processing,” Nature Photonics 5, 364–371, May, 2011. 
  • Igor Pastirk, Bojan Resan, Alan Fry, John MacKay, and Marcos Dantus, “No loss spectral phase correction and arbitrary pulse shaping of regeneratively amplified femtosecond pulses using MIIPS,” Optics Express, 20, 9537-9543, October 2006.
  • Bojan Resan, Luis Archundia, and Peter J. Delfyett, “FROG measured high-power 185 fs pulses generated by down-chirping of the dispersion-managed breathing-mode semiconductor mode-locked laser,” IEEE Photonics Technology Letters, 17, 1384-1386, July 2005.
  • Bojan Resan, Luis Archundia, and Peter J. Delfyett, “Dispersion-managed breathing mode-locking: generation of high-power 185 fs pulses from a semiconductor laser,” Optics and Photonics News, Optics in 2004 issue, December 2004.
  • Luis C. Archundia, Bojan Resan, and Peter J. Delfyett, “Time and Spectrally Resolved Ultrafast Gain Dynamics of a Semiconductor Optical Amplifier under Phase-correlated Multiwavelength Pulse Amplification,” Applied Physics Letters, 85, 4567, November 15, 2004.
  • Bojan Resan and Peter J. Delfyett, “Dispersion-managed Breathing-mode Semiconductor Mode-locked Ring Laser: Experimental Characterization and Numerical Simulations,” IEEE Journal of Quantum Electronics 40, 214-221, March 2004.
  • Bojan Resan, Luis Archundia, Peter J. Delfyett, and Gerard Alphonse, “Dispersion-managed Semiconductor Mode-locked Ring Laser,” Optics Letters 35, 1371-1373, August 2003.

Patents:

  • Bojan Resan, “Optical source with passive pulse shaping”, US Patent 9,698,555; July 2017.
  • Bojan Resan, “Optical source with passive pulse shaping”, US Patent 9,401,580; July 2016.
  • Juan Chilla, Bojan Resan, and Russel Austin, “Mode-locked external-cavity surface-emitting semiconductor lasers,” US patent application 20090290606; November 26, 2009.
  • Bojan Resan and Estelle Coadou, “Ultrashort seed-pulse generating laser with integral pulse shaping,” US patent 7,894,493; February 22, 2011.
  • Bojan Resan and Alan Fry, “Non-Fourier pulse-shapers including a combined pulse-shaper and pulse-compressor,” US patent 7,688,493; March 30, 2010.
  • Bojan Resan, Austin R. Russel, and Jason P. Watson “Adjustable pulse shaper,” US patent 7, 542,192; June 2, 2009.
  • Peter J. Delfyett, Kyungbum Kim, and Bojan Resan, “Sub-ps mJ Semiconductor Source – Extreme Chirped Pulse Laser and Amplifier (XCPA),” US patent 7,561,605; July 14, 2009.