J. Nathan Kutz, Robert Bolles and Yasuko Endo Professor and Chair of Applied Mathematics


· Contact · Research · Education · Academic History · Honors and Awards · Students · Seminars and Colloquia · Publications ·

 

Contact

Address:
University of Washington
Department of Applied Mathematics
Box 352420
Seattle, WA 98195-2420
USA
Phone: 206-685-3029
Fax: 206-685-1440
E-mail: kutz@amath.washington.edu
web: www.amath.washington.edu/~kutz
Office: Guggenheim 414B
Curriculum Vitae: postscript and pdf

 


Research

Numerical methods and scientific computing, data analysis and dimensionality reduction (PCA, POD, etc) methods, dynamical systems, bifurcation theory, linear and nonlinear wave propagation, perturbation and asymptotic methods, nonlinear analysis, variational methods, soliton theory, nonlinear optics, mode-locked lasers, Bose-Einstein condensation, neuroscience and gesture recognition

 


Education

Ph.D. 1994
Northwestern University
Department of Engineering Science and Applied Mathematics
Advisor: William L. Kath
Dissertation: Pulse Propagation in Nonlinear Optical Fibers using Phase-Sensitive Amplifiers (49 pages of two-column postscript)
B.S. 1990 University of Washington
Physics and Mathematics

 


Academic History

Adjunct Professor (9/09-present):
Electrical Engineering and Physics
Professor (9/05-present) and Chair (7/07-present):
Department of Applied Mathematics
Associate Professor (9/01-8/05):
University of Washington , Seattle, WA
Assistant Professor (9/98-8/01):


Visiting Research Fellow (9/95-8/97):
Program in Applied and Computational Mathematics
Department of Mathematics, Princeton University, Princeton, NJ
Visiting Fellow (9/95-8/97):
Mathematical Sciences Research Center and Division of Theoretical Physics
AT&T Bell Laboratories, Murray Hill, NJ
Postdoctoral Fellow (9/94-8/95):
Institute for Mathematics and its Applications
School of Mathematics , University of Minnesota, Minneapolis, MN

Visiting Academic Positions

8/12-7/13:
Radcliffe Institute for Advanced Studies
Harvard University, Boston, MA
8/12-7/13:
Department of Mathematics
Massachusetts Institute of Technology, Boston, MA
8/08-9/08:
Instituto de Matematica Pura e Aplicada
Rio de Janeiro, Brazil
3/08-6/08:
Department of Mathematics
University of Bergen, Bergen, Norway
1/07-3/07:
Department of Physics
Universita di Roma "La Sapienza", Rome, Italy
3/06-5/06:
Department of Mathematics
University of Surrey, Guildford, United Kingdom
7/04-12/04:
Department of Physics
University of Sydney, Sydney, Australia
4/03-6/03:
Department of Electrical Engineering
Columbia University , New York City, NY
6/98-8/98:
Optique Nonlineaire Theorique
University Libre de Bruxelles, Brussels, Belgium
3/98-5/98:
Fondazione Ugo Bordoni
Rome, Italy
9/97-2/98:
Department of Electronic Engineering
Hong Kong Polytechnic University, Hong Kong, China
7/96-8/96:
Department of Mathematics
Stanford University, Stanford, CA

 


Honors and Awards

2012-2013
Fellow of the Radcliffe Institute for Advanced Studies, Harvard University
July 2009
Best Paper Award: International Conference of Applied and Engineering Mathematics
June 2007
Applied Mathematics Boeing Award of Excellence in Teaching
2001-2006
National Science Foundation CAREER Award
2001-2002 Woodrow Wilson National Fellowship Foundation: Career Enhancement Fellowship
March 2000 Department of Applied Mathematics Excellence in Teaching Award
1998-2000 3M Corporation New Faculty Award
1997-1999 Hughes Research Laboratories Research Award
1997-1998 NSF International Research Fellow Award
1997-1999 NSF-NATO Postdoctoral Fellowship
1995-1997 NSF Mathematical Sciences University-Industry Postdoctoral Fellowship
1991-1994 DOD-National Defense Science and Engineering Graduate Fellowship

 


Students

Graduate PhD Students

PhD 2004 Sarah Hewitt
Thesis: Dynamics and Stability of Periodic Spatial Patterns in the Optical Parametric Oscillator
PhD 2005 Edward Farnum
Thesis: Stability and Dynamics of Solitary Waves in Nonlinear Optical Materials
PhD 2008 Brandon Bale
Thesis: Modeling the stability and dynamics in mode-locked fiber lasers
PhD 2011 Edwin Ding
Thesis: Modeling high-energy temporal and spatial mode-locking
PhD 2012 Matthew Williams
Thesis: Exploiting Low Dimensionality in Nonlinear Optics and Other Physical Systems
PhD 2013 (expected) Jacob Grosek
Research: Gesture recognition algorithms
PhD 2014 (expected) Pedro Maia
Research: Dentrite (neuron) propagation dynamics
PhD 2014 (expected) Alan Jamison
Research: Atomic interferometry
PhD 2014 (expected) Xing Fu
Research: Computational algorithms using low-dimensionality

Undergraduate Research Students

<
A98-S01
Brandon Bale (ACMS and Mary Gates Fellow)
S99-S01 Derek Bentsen (ACMS and Mary Gates Fellow)
S00-S01 Kristin Spaulding (ACMS and Mary Gates Fellow)
Honors Thesis: Modelocking in an optical fiber ring lasers
A00-S02 Brandon Warner (ACMS)
W01-S02 Matthew Patterson (ACMS and Mary Gates Fellow)
Honors Thesis: Coupled Multi-species Bose-Einstein Condensates in Generalized Periodic Potentials
A01-Su02 Jennifer O'Neil (ACMS and Mary Gates Fellow)
Honors Thesis: Pulse Dynamics in Actively Modelocking Fiber Optic Lasers
W02-A02 Dutch Meyer (ACMS)
A00-S03 Karen Intrachat (ACMS and Mary Gates Fellow)
W03-S03 Noel Fitzgerald (ACMS/Chemistry and Mary Gates Fellow)
Honors Thesis: Laser-Induced Plasmas: Dynamics in Air
W03-S04 Leslie Butson (ACMS)
A03-S06 Joshua Proctor (Aeronautical and Astronautical Engineering and English and Mary Gates Fellow)
S04-Su05 Braxton Osting (Mathematics and Mary Gates Fellow)
Honors Thesis: Stability and dynamics of transverse field structures in the optical parametric oscillator near resonance detuning
S05-Su06 N. Hawk Berry (Physics and Mary Gates Fellow)
S04-S07 Kimberlee Shish (Aeronautical and Astronautical Engineering and Mary Gates Fellow)
W06-S07 Joel Nishimura (Mathematics and Mary Gates Fellow)
Honors Thesis: Stability and interactions of transverse field structures in optical parametric oscillators
S07-S08 Jonathan Tu (Aeronautical and Astronautical Engineering and Mathematics and Mary Gates Fellow)
S07-S08 Hannah Hedeen (Electrical Engineering and Mary Gates Fellow)
S07-S08 Beth Carey (Civil Engineering)
S07-Sp10 Colin McGrath (ACMS and Physics)
S08-Sp10 Simon Hachey (Mathematics and Mary Gates Fellow)
Sp09-S09 Namiko Saito (Aeronautical and Astronautical Engineering)
Sp10-S10 Eugenia Prezhdo (ACMS)
Sp11-Sp12 Andrew Scott Barr (ACMS)
S11-Sp12 Barok Yemane (Physics and ACMS)
S11-Sp12 Victor Esquivel (ACMS)
W12-Sp12 Chad Keeney (Physics)
Sp11-A12 Ian Talarico (Computer Science and Engineering)

 


Seminars and Colloquia

December 2013
Institute for Systems Biology, Seattle, WA
June 2013
Massachusetts Institute of Technology, Cambridge, MA
June 2013
MIT Lincoln Laboratories (high-power lasers), Lexington, MA
June 2013
Mathworks Inc, Natick, MA
May 2013
MIT Lincoln Laboratories (radar & detection), Lexington MA
April 2013
Harvard University, Cambridge, MA
April 2013
Courant Institute of Mathematical Sciences, New York, NY
March 2013
Worcester Polytechnic University, Worcester, MA
February 2013
University of Vermont, Burlington, VT
February 2013
Institut National de la Recherche Scientifique, Montreal, CA
February 2013
McGill University, Montreal, CA
February 2013
Harvard University, Cambridge, MA
February 2013
Boston University, Boston, MA
November 2012
University of Notre Dame, South Bend, IN
October 2012
Massachusetts Institute of Technology, Cambridge, MA
October 2012
Radcliffe Institute for Advanced Studies, Cambridge, MA
October 2012
University of Massachusetts, Amherst, MA
May 2012
Pacific Northwest National Laboratories, Richland, WA
May 2012
University of California, Los Angeles, CA
April 2012
University of California, Merced, CA
March 2012
Weizmann Institute, Rehovot, Israel
March 2012
Hebrew University, Jerusalem, Israel
January 2012
Intellectual Ventures Labs, Bellevue, WA
September 2011
Massachusetts Institute of Technology, Boston, MA
September 2011
Brown University, Providence, RI
April 2011
Columbia University, New York City, NY
April 2011
University of Pennsylvania, Philadelphia, PA
April 2011
Hong Kong Polytechnic University, Hong Kong, China
October 2010
University of Stuttgart, Stuttgart, Germany
October 2010
Harvard University, Boston, MA
October 2010
Massachusetts Institute of Technology, Boston, MA
April 2010
University of Minnesota, Minneapolis, MN
April 2010
University of Wisconsin, Madison, WI
April 2010
University of Illinois, Urbana-Champagne, IL
April 2010
Ohio State University, Columbus, OH
April 2010
University of Michigan, Ann Arbor, MI
March 2010
Kirtland Air Force Research Laboratories, Albuquerque, NM
March 2010
Boeing Math Group, Bellevue, WA
September 2009
Vietnam National University, Hanoi, Vietnam
August 2009
Hong Kong Polytechnic University, Hong Kong, China
June 2009
Aston University, Birmingham, England
June 2009
Weierstrass-Institut fur Angewandte Analysis und Stochastik, Berlin, Germany
June 2009
Microvision Inc., Redmond, WA
April 2009
Columbia University, New York, NY
March 2009
Physics, University of Washington, Seattle, WA
March 2009
ACMS, University of Washington, Seattle, WA
February 2009
University of Oregon, Eugene, OR
February 2009
Stanford University, Stanford, CA
January 2009
University of California, Irvine, CA
December 2008
University of California, Berkeley, CA
September 2008
Instituto de Matematica Pura e Aplicada, Rio de Janeiro, Brazil
August 2008
Federal University of Rio de Janeiro, Rio de Janeiro, Brazil
July 2008
ETH Zurich, Zurich, Switzerland
April 2008
University of Bergen, Bergen, Norway
February 2008
State University of New York at Buffalo, Buffalo, NY
January 2007
University of Sydney, Sydney, Australia
December 2006
Claremont Graduate University, Claremont, CA
December 2006
University of California, Merced, CA
October 2006
Oxford University, Oxford, United Kingdom
September 2006
Princeton University, Princeton, NJ
September 2006
Cornell University, Ithaca, NY
September 2006
New Jersey Institute of Technology, Newark, NJ
June 2006
University of Colorado, Boulder, CO
March 2006
University of Surrey, Guildford, United Kingdom
February 2006
Massachusetts Institute of Technology, Boston, MA
February 2006
Boston University, Boston, MA
September 2005
Weierstrass-Institut fur Angewandte Analysis und Stochastik, Berlin, Germany
September 2005
Max Planck Institut fur Physik komplexer Systeme, Dresden, Germany
December 2004
University of Sydney, Sydney, Australia
September 2004
Australian National University, Canberra, Australia
August 2004
University of Sydney, Sydney, Australia
February 2004
University of North Carolina, Chapel Hill, NC
February 2004
University of New Mexico, Albuquerque, NM
January 2004
University of Washington, Seattle, WA
July 2003
University of Auckland, Auckland, New Zealand
July 2003
University of Sydney, Sydney, Australia
July 2003
University of New South Wales, Sydney, Australia
April 2002
Columbia University, New York, NY
April 2001
nLight Photonics Corporation, Seattle, WA
March 2001
University of Colorado, Boulder, CO
December 2000
Hong Kong Polytechnic University, Hong Kong, China
December 2000
University of Minnesota, Minneapolis, MN
December 2000
University of Washington, Seattle, WA
September 2000
Massachusetts Institute of Technology, Boston, MA
September 2000
Brown University, Providence, RI
June 2000
Corning Incorporated, Opto-Electronics Division, Sommerville, NJ
February 2000
Stanford University, Stanford, CA
December 1999
University of Arizona, Tucson, AZ
March 1999
Princeton University, Princeton, NJ
February 1999
Applied Mathematics, University of Washington, Seattle, WA
January 1999
Simon Fraser University, Vancouver, Canada
November 1998
Applied Physics, University of Washington, Seattle, WA
October 1998
University of Washington, Seattle, WA
August 1998
Institut fur Theoretische Physik, Dusseldorf, Germany
May 1998
Universita degli Studi di Roma ``La Sapienza'', Roma, Italy
April 1998
Pirelli, Division of Photonics Research, Milan, Italy
March 1998
Universita degli Studi di Padova, Padova, Italy
March 1998
Fondazione Ugo Bordoni, Rome, Italy
January 1998
Tyco Submarine Systems Ltd., Holmdel, NJ
December 1997
Hong Kong Polytechnic University, Hong Kong, China
November 1997
City University of Hong Kong, Hong Kong, China
March 1997
Bell Laboratories, Lucent Technologies, Murray Hill, NJ
February 1997
University of Washington, Seattle, WA
February 1997
University of Michigan, Ann Arbor, MI
February 1997
Harvey-Mudd College, Claremont, CA
February 1997
Texas A&M, College Station, TX
February 1997
University of Delaware, Newark, DE
February 1997
Rensselaer Polytechnic Institute, Troy, NY
November 1996
New Jersey Institute of Technology, Newark, NJ
October 1996
Princeton University, Princeton, NJ
April 1996
Brown University, Providence, RI
February 1996
International Submarine and Lightwave Systems, Holmdel, NJ
November 1995
Massachusetts Institute of Technology, Cambridge, MA
October 1995
Princeton University, Princeton, NJ
October 1995
College of New Jersey, Trenton, NJ
April 1995
Institute for Mathematics and its Applications, Minneapolis, MN
October 1995
AT&T Bell Labs Mathematical Sciences Research Center, Murray Hill, NJ
July 1995
3M Computational Science Center, St. Paul, MN
October 1994
AT&T Bell Labs Division of Theoretical Physics, Murray Hill, NJ
September 1994
Honeywell Technology Center, Minneapolis, MN
April 1994
Northwestern University, Evanston, IL

 


Books

  1. Data-driven modeling and scientific computing: Methods for Integrating Dynamics of Complex Systems and Big Data (Oxford Press 2013) [Kutz]

Book Chapters

  1. Solitons and ultra-short optical waves: The Short-Pulse Equation versus the Nonlinear Schrodinger Equation, in Non-Diffracting Waves, H. Hernandez-Figueroa, E. Recami and M. Zamboni-Rached Eds. 453-473 (Wiley, 2013) [Kutz & Farnum]

  2. Waveguide arrays for optical pulse-shaping, mode-locking and beam combining, in Numerical Simulations - Applications, Examples and Theory, L. Angermann Ed. 121-148 (INTECH, 2010) [Kutz]

  3. Bright matter waves and stable atomic mode-locking in Bose-Einstein condensates, Bose-Einstein Condensates: Theory, Characteristics and Current Research, P. Matthews Ed. 153-168 (Nova, 2010) [Kutz]

  4. The Role of Intracavity Dynamics in Mode-Locked Lasers, Current Themes in Engineering Science, E. Korsunsky Ed. 124-133 (American Institute of Physics, 2009) [Bale & Kutz]

  5. Theory of Soliton Lasers: Dynamics, Stability and Mode-Locking, Handbook of Solitons: Research, Technology and Applications, S. P. Lang and S. H. Bedore Eds. 393-412 (Nova, 2009) [Kutz]

  6. Low-dimensional Models for Characterizing Mode-Locked Fiber Lasers, Fiber Lasers: Research, Technology and Applications, M. Kimura Ed. 59-80 (Nova, 2009) [Bale & Kutz]

  7. Mode-Locking of Fiber Lasers via Nonlinear Mode-Coupling, Dissipative Solitons, Lecture Notes in Physics, N. N. Akhmediev and A. Ankiewicz Eds. 241-265 (Springer-Verlag, Berlin, 2005) [Kutz]

  8. Dynamics of dispersion-managed solitons in optical communications: a geometric interpretation, in New Trends in Optical Soliton Transmission Systems, A. Hasegawa Ed., 183-195 (Kluwer Academic, Dordrecht, Netherlands, 1998) [Kutz, Evangelides, & Gordon]

Featured Articles

  1. Nature Photonics Research Highlights, 6, 342 (2012), featuring Fixed-point attractor Physical Review A 85 (2012) 031806 (Hudson, Kutz, Schibli, Chao, Christodoulides, Morandotti & Cundiff)

  2. Virtual Journal of Ultrafast Science, 9, issue 12 (2010) http://www.vjultrafast.org/ultrafast/, featuring Cascaded higher-order soliton for non-adiabatic pulse compression Journal of the Optical Society of America B 27 (2010) 2180-2189 (Li, Kutz & Wai)

  3. Virtual Journal of Ultrafast Science, 7, issue 11 (2008) http://www.vjultrafast.org/ultrafast/, featuring Spectral filtering for high-energy mode-locking in normal dispersion fiber lasers, Journal of the Optical Society of America B 25 (2008) 1763-1770 (Bale, Kutz, Chong, Renninger & Wise)

  4. Virtual Journal of Ultrafast Science, 7, issue 7 (2008) http://www.vjultrafast.org/ultrafast/, featuring Multi-frequency mode-locked lasers, Journal of the Optical Society of America B 25 (2008) 1002-1010 (Farnum & Kutz)

  5. Virtual Journal of Ultrafast Science, 7, issue 7 (2008) http://www.vjultrafast.org/ultrafast/, featuring Spectral Filtering for Ultra-fast Mode-Locking in the Normal Dispersive Regime, Optics Letters 33 (2008) 941-943 (Bale, Kutz, Chong, Renninger & Wise)

  6. Virtual Journal of Ultrafast Science, 7, issue 7 (2008) http://www.vjultrafast.org/ultrafast/, featuring Analytic theory of self-similar mode-locking, Optics Letters 33 (2008) 911-913 (Bale, Kutz & Wise)

  7. Virtual Journal of Ultrafast Science, 4, issue 8 (2005) http://www.vjultrafast.org/ultrafast/, featuring Passive Mode-Locking by use of Waveguide Arrays, Optics Letters 30 (2005) 2013-2015 (Proctor & Kutz)

  8. Mode-locking Technique Well Suited for Fiber Lasers, Photonics Spectra, (September 2005) 96-98, featuring Passive Mode-Locking by use of Waveguide Arrays, Optics Letters 30 (2005) 2013-2015 (Proctor & Kutz)

Refereed Journal Publications

  1. Dynamic mode decomposition for real-time background/foreground separation in video, arXiv:1404.7592 (Grosek & Kutz)

  2. Selecting a small set of optimal gestures from an extensive lexicon, arXiv:1404.7594 (Grosek & Kutz)

  3. Toward compressed DMD: spectral analysis of fluid flows using sub-Nyquist-rate PIV data, arXiv:1401.7047 (Tu, Rowley, Kutz & Shang)

  4. Compressive sampling and dynamic mode decomposition, arXiv:1312.5186 (Brunton, Proctor & Kutz)

  5. Compressive sensing and low-rank libraries for classification of bifurcation regimes in nonlinear dynamical systems, arXiv:1312.4221 (Brunton, Tu, Bright & Kutz)

  6. On Dynamic Mode Decomposition: Theory and Applications, arXiv:1312.0041 (Tu, Rowley, Luchtenburg, Brunton & Kutz)

  7. Optimal Sensor Placement and Enhanced Sparsity for Classification, arXiv:1310.4217 (Brunton, Brunton, Proctor & Kutz)

  8. Data-driven inference of network connectivity for modeling the dynamics of neural codes in the insect antennal lobe, Frontiers in Neuroscience 18 (2014) article 70, 1-15 (Shlizerman, Riffell & Kutz)

  9. Flower discrimination by pollinators in a dynamic chemical environment, Science 344 (2014) 1515-1518 (Riffell, Shlizerman, Sanders, Abrell, Medina, Hinterwirth & Kutz)

  10. Low-dimensional functionality of complex network dynamics: Neuro-sensory integration in the Caenorhabditis elegans connectome, Physical Review E 89 (2014) 052805 (Kunert, Shlizerman & Kutz)

  11. Classification of birefringence in mode-locked fiber lasers using machine learning and sparse representation, Optics Express 22 (2014) 8585-8597 (Fu, Brunton & Kutz)

  12. Identifying critical regions for spike propagation in axon segments, Journal of Computational Neuroscience 236 (2014) 141-155 (Maia & Kutz)

  13. Compressive sensing based machine learning strategy for characterizing the flow around a cylinder with limited pressure measurements, Physics of Fluids 25 (2013) 127102 (Bright, Lin & Kutz)

  14. Mathematics shines light on ultrafast lasers, International Innovation 116 (2013) 104-106 (Kutz)

  15. Extremum-Seeking Control of a Mode-Locked Laser, IEEE Journal of Quantum Electronics 49 (2013) 852-861 (Brunton, Fu & Kutz)

  16. Short-pulse perturbation theory, Journal of the Optical Society of America B 30 (2013) 2191-2198 (Farnum & Kutz)

  17. Hybrid Reduced-Order Integration with Proper Orthogonal Decomposition and Dynamic Mode Decomposition, SIAM Multiscale Modeling and Simulation 11 (2013) 522-544 (Williams, Schmid & Kutz)

  18. High-degree pulse compression and high-coherence supercontinuum generation in a convex dispersion profile, Optics Communications 301 (2013) 29-33 (Li, Kutz & Wai)

  19. Phase retrieval using nonlinear diversity, Applied Optics 52 (2013) 92-96 (Lu, Barsi, Williams, Kutz & Fleischer)

  20. High-energy mode-locked fiber lasers using multiple transmission filters and a genetic algorithm, Optics Express 21 (2013) 6526-6537 (Fu & Kutz)

  21. Enhanced Gesture Recognition Performance through Improved Pre-Processing, International Journal of Computer Applications 62 (2013) 1-8 (Grosek, Shi & Kutz)

  22. Waveguide Array Fiber Laser, IEEE Photonics Journal 4 (2012) 1438-1442 (Chao, Hudson, Kutz & Cundiff)

  23. The Low Dimensionality of Time-Periodic Standing Waves in Water of Finite and Infinite Depth, SIAM Journal of Applied Dynamical Systems 11 (2012) 1033-1061 (Williams, Shlizerman, Wilkening & Kutz)

  24. Neural activity measures and their dynamics, SIAM Journal of Applied Mathematics 72 (2012) 1260-1291 (Shlizerman, Schroder & Kutz)

  25. Generating and Routing Light-Bullets using Slab Waveguide Arrays, Optical and Quantum Electronics 44 (2012) 247-253 (Williams & Kutz)

  26. Characterizing bifurcations and chaos in multiwavelength lasers with intensity-dependent loss and saturable homogeneous gain, Optics Communications 285 (2012) 2144-2153 (Li, Kutz & Wai)

  27. Fixed-point attractor for chirp in nonlinear waveguide arrays, Physical Review A 85 (2012) 031806R (Hudson, Kutz, Schibli, Chao, Christodoulides, Morandotti & Cundiff)

  28. High-Energy Passive Mode-Locking of Fiber Lasers, International Journal of Optics 2012 (2012) 354156 (Ding, Renninger, Wise, Grelu, Shlizerman & Kutz)

  29. Mode Locking in the Few-Femtosecond Regime Using Waveguide Arrays and the Coupled Short-Pulse Equations, IEEE Journal of Selected Topics in Quantum Electronics 18 (2012) 113-118 (Farnum & Kutz)

  30. Spatial distribution campling of discrete spatial solitons due to three photon absorption in AlGaAs waveguide arrays , Optics Express 20 (2012) 1939-1944 (Hudson, Kutz, Schibli, Christodoulides, Morandotti & Cundiff)

  31. The Proper Orthogonal Decomposition for Dimensionality Reduction in Mode-Locked Lasers and Optical Systems, International Journal of Optics 2012 (2012) 831604 (Shlizerman, Ding, Williams & Kutz)

  32. Atomic interactions in precision interferometry using Bose-Einstein condensates, Physical Review A 84 (2011) 043643 (Jamison, Kutz & Gupta)

  33. Dual transmission filters for enhanced energy in mode-locked fiber lasers, Optics Express 19 (2011) 23408-23419 (Feng, Ding, Kutz & Wai)

  34. Continuation of periodic solutions in the waveguide array mode-locked laser, Physica D 240 (2011) 1791-1804 (Williams, Wilkening, Shlizerman, & Kutz)

  35. Operating Regimes and Performance Optimization in Mode-locked Fiber Lasers, Optics and Spectroscopy 111 (2011) 166-177 (Ding & Kutz)

  36. Generalized Master Equation for High-Energy Passive Mode-Locking: The Sinusoidal Ginzburg-Landau Equation, IEEE Journal of Quantum Electronics 47 (2011) 705-714 (Ding, Shlizerman & Kutz)

  37. Scaling Fiber Lasers to Large Mode Area: An Investigation of Passive Mode-Locking Using a Multi-Mode Fiber, IEEE Journal of Quantum Electronics 47 (2011) 597-606 (Ding, Lefrancois, Kutz & Wise)

  38. Multiwavelength lasers with homogeneous gain and intensity-dependent loss, Optics Communications 284 (2011) 2327-2336 (Li, Feng, Zheng, Lu, Tam, Kutz & Wai)

  39. Dissipative Soliton Resonance in a Passively Mode-Locked Fiber Laser, Optics Letters 36 (2011) 1146-1148 (Ding, Grelu & Kutz)

  40. Stability analysis of cavity solitons governed by the cubic-quintic Ginzburg-Landau equation, Journal of Physics B 44 (2011) 065401 (Ding, Lu & Kutz)

  41. Intensity dynamics in a waveguide array laser, Optics Communications 284 (2011) 971-978 (Feng, Williams, Kutz, Silverman, Mirin & Cundiff)

  42. Mode-locking using $\chi^{(2)}$ waveguide arrays, IEEE Photonics Technologies Letters 22 (2010) 1674-1676 (Saito & Kutz)

  43. The multi-pulsing transition in mode-locked lasers: a low-dimensional approach using waveguide arrays, Journal of the Optical Society of America B 27 (2010) 2471-2481 (Williams, Shlizerman & Kutz)

  44. Cascaded higher-order soliton for non-adiabatic pulse compression, Journal of the Optical Society of America B 27 (2010) 2180-2189 (Li, Kutz & Wai)

  45. Interaction dynamics of X-waves in waveguide arrays, Optics Express 18 (2010) 21252-21260 (Williams, McGrath & Kutz)

  46. Geometrical description of the onset of multi-pulsing in mode-locked laser cavities, Journal of the Optical Society of America B 27 (2010) 2068-2077 (Feng, Wai & Kutz)

  47. Modeling multipulsing transition in ring cavity lasers with proper orthogonal decomposition, Physical Review A 82 (2010) 023823 (Ding, Shlizerman & Kutz)

  48. Master mode-locking theory for few-femtosecond pulses, Optics Letters 35 (2010) 3033-3035 (Farnum & Kutz)

  49. Light-bullet Creation, Routing and Control with Planar Waveguide Arrays, IAENG Engineering Letters 18 (2010) 263-272 (Williams & Kutz)

  50. Mode-Locking Intracavity Dynamics: Modeling Nonlinear Power and Energy Fluctuations, IAENG International Journal of Applied Mathematis 40 (2010) 214-223 (Bale & Kutz)

  51. Light-bullet routing and control with planar waveguide arrays, Optics Express 18 (2010) 11671-11682 (Williams, McGrath & Kutz)

  52. Stability of mode-locked pulse solutions subject to saturable gain: computing linear stability with the Floquet-Fourier-Hill method, Journal of the Optical Society of America B 27 (2010) 1184-1194 (Jones & Kutz)

  53. Stability, dynamics, and the onset of multi-pulsing in a mode-locked laser cavity using phase-sensitive amplification, Optics Communications 283 (2010) 2588-2595 (Hachey, Jones & Kutz)

  54. Bifurcation and stability in a low-dimensional model for multiple-frequency mode-locked lasers, Physical Review A 81 (2010) 033851 (Farnum, Bale, & Kutz)

  55. Intracavity dynamics in high-power mode-locked fiber lasers, Physical Review A 81 (2010) 033828 (Bale, Boscolo, Kutz & Turitsyn)

  56. Transition dynamics for multi-pulsing in mode-locked lasers, Optics Express 17 (2009) 23137-23146 (Bale, Kieu, Kutz & Wise)

  57. Operating regimes, split-step modeling, and the Haus master mode-locking model, Journal of the Optical Society of America B 26 (2009) 2290-2300 (Ding & Kutz)

  58. Spatial Mode-Locking of Light Bullets in Planar Waveguide Arrays, Optics Express 17 (2009) 18320-18329 (Williams & Kutz)

  59. Stability analysis of the mode-locking dynamics in a laser cavity with a passive polarizer, Journal of the Optical Society of America B 26 (2009) 1400-1411 (Ding & Kutz)

  60. Mode-locked matter waves in Bose-Einstein condensates, Physica D 238 (2009) 1468-1474 (Kutz)

  61. Analytic theory of parabolic pulses in dissipative systems with rapidly varying mean-zero dispersion , Physical Review E 79 (2009) 046602 (Bale & Kutz)

  62. Pulse formation, harmonic mode-locking, and stability in actively mode-locked laser cavities , IEEE Journal of Quantum Electronics 45 (2009) 282-291 (Tu & Kutz)

  63. Optimizing waveguide array mode-locking for high-power fiber lasers, IEEE Journal of Selected Topics in Quantum Electronics 15 (2009) 220-231 (Bale, Kutz & Sandstede)

  64. Spectral filtering for high-energy mode-locking in normal dispersion fiber lasers, Journal of the Optical Society of America B 25 (2008) 1763-1770 (Bale, Kutz, Chong, Renninger & Wise)

  65. Theory and Simulation of Passive Multifrequency Mode-Locking With Waveguide Arrays, Journal of Quantum Electronics 44 (2008) 976-983 (Bale, Farnum & Kutz)

  66. Dynamics of multifrequency mode-locking driven by homogenous and inhomogenous gain broadening effects, Journal of the Optical Society of America B 25 (2008) 1479-1487 (Bale, Farnum & Kutz)

  67. Passive mode-locking using phase-sensitive amplification, Physical Review A 78 (2008) 013845 (Kutz)

  68. Nonlinear femtosecond pulse reshaping in waveguide arrays, Optics Letters 33 (2008) 1440-1442 (Hudson, Shish, Schibli, Kutz, Christodoulides, Morandotti & Cundiff)

  69. Variational method for mode-locked lasers, Journal of the Optical Society of America B 25 (2008) 1193-1202 (Bale & Kutz)

  70. Multi-frequency mode-locked lasers, Journal of the Optical Society of America B 25 (2008) 1002-1010 (Farnum & Kutz)

  71. Spectral Filtering for Ultra-fast Mode-Locking in the Normal Dispersive Regime, Optics Letters 33 (2008) 941-943 (Bale, Kutz, Chong, Renninger & Wise)

  72. Analytic theory of self-similar mode-locking , Optics Letters 33 (2008) 911-913 (Bale, Kutz & Wise)

  73. Stability and interactions of transverse field structures in optical parametric oscillators near resonance detuning , Journal of Physics B 41 (2008) 065401 (Nishimura & Kutz)

  74. Theory of passive harmonic mode-locking using waveguide arrays, Optics Express 16 (2008) 636-650 (Kutz & Sandstede)

  75. Mode-locked X-wave lasers, Optics Express 15 (2007) 16022-16028 (Kutz, Conti & Trillo)

  76. Dynamics of Bose-Einstein condensates under the influence of periodic and harmonic potentials, Physical Review E 75 (2007) 036214 (Berry & Kutz)

  77. SpectrUW: a laboratory for the numerical exploration of spectra of linear operators, Journal of Mathematics and Computers in Simulation 74 (2007) 370-378 (Deconinck, Kiyak, Carter & Kutz)

  78. Averaged models for passive mode-locking using nonlinear mode-coupling, Journal of Mathematics and Computers in Simulation 74 (2007) 333-342 (Proctor & Kutz)

  79. Mode-locked Soliton Lasers, SIAM Review 48 (2006) 629-678 (Kutz)

  80. Computing spectra of linear operators using Hill's method, Journal of Computational Physics 219 (2006) 296-321 (Deconinck & Kutz)

  81. Theory of Q-switching in actively mode-locked lasers, Journal of the Optical Society of America B 23 (2006) 652-662 (Proctor & Kutz)

  82. Theory and simulation of dual-frequency mode-locked lasers, Journal of the Optical Society of America B 23 (2006) 257-264 (Farnum, Butson & Kutz)

  83. Dynamics of the Optical Parametric Oscillator Near Resonance Detuning , SIAM Journal on Applied Dynamical Systems 4 (2005) 808-831 (Hewitt & Kutz)

  84. Nonlinear mode-coupling for passive mode-locking: application of waveguide arrays, dual-core fibers, and/or fiber arrays , Optics Express 13 (2005) 8933-8950 (Proctor & Kutz)

  85. Stability and dynamics of transverse field structures in the optical parametric oscillator near resonance signal detuning, Journal of Physics B 38 (2005) 3461-3475 (Osting, Hewitt & Kutz)

  86. Passive mode-locking by use of waveguide arrays, Optics Letters 30 (2005) 2013-2015 (Proctor & Kutz)

  87. Enhanced Supercontinuum Generation through Dispersion-Management, Optics Express 13 (2005) 3989-3998 (Kutz, Lynga & Eggleton)

  88. Bit-Error-Ratio Improvement With 2R Optical Regenerators, IEEE Photonics Technology Letters 17 (2005) 908-910 (Rochette, Kutz, Blows, Moss, Mok & Eggleton)

  89. Exact nonstationary solutions to the mean-field equations of motion for two-component Bose-Einstein condensates in periodic potentials , Journal of Physics A 38 (2005) 1901-1916 (Bradley, Deconinck & Kutz)

  90. Variational dynamics of spatial solitons in quasi-phase-matched quadratic media, Journal of Optics B 6 (2004) 405-410 (Farnum & Kutz)

  91. Dynamics and Stability of a New Class of Periodic Solutions of the Optical Parametric Oscillator , Optics Communications 240 (2004) 423-436 (Hewitt, Intrachat & Kutz)

  92. The Evans function for nonlocal equations, Indiana Journal of Mathematics 53 (2004) 1095-1126 (Kapitula, Kutz & Sandstede)

  93. Singular instability of exact stationary solutions of the nonlocal Gross-Pitaevskii equation, Physical Letters A 319 (2003) 97-103 (Deconinck & Kutz)

  94. Theory and simulation of passive modelocking dynamics using a long period fiber grating , IEEE Journal of Quantum Electronics 39 (2003) 1572-1578 (Intrachat & Kutz)

  95. Dynamics of periodic multi-component Bose-Einstein condensates , Journal of Physics A: Mathematical and General 36 (2003) 5431-5447 [Deconinck, Kutz, Patterson, & Warner]
  96. Bose-Einstein condensates in a one-dimensional double square well: Analytical solutions of the nonlinear Schrodinger equation , Physical Review A 66 (2002) 063607 [Mahmud, Kutz, & Reinhardt]
  97. Theory and Simulation of the Dynamics and Stability of Actively Modelocked Lasers, IEEE Journal of Quantum Electronics 38 (2002) 1412-1419 [O'Neil, Kutz, & Sandstede]
  98. Dynamics and Stability of Bose-Einstein Condensates: the Nonlinear Schrodinger Equation with Periodic Potential , J. Nonlinear Science 12 (2002) 169-205 [Deconinck, Frigyik & Kutz]
  99. Nonlinear dynamics of mode-locking optical fiber ring lasers, J. Opt. Soc. Am. B 19 (2002) 1045-1054 [Spaulding, Yong, Kim & Kutz]
  100. Stability of Pulses in the Master-Modelocking Equation, J. Opt. Soc. Am. B 19 (2002) 740-746 [Kapitula, Kutz & Sandstede]
  101. Stability of Attractive Bose-Einstein Condensates in a Periodic Potential, Phys. Rev. E 64 (2001) 056615 [Bronski, Carr, Carretero-Gonzalez, Deconinck, Kutz & Promislow]
  102. Stability of exact solutions of the defocusing nonlinear Schrodinger equation with periodic potential in two dimensions , Phys. Lett. A 283 (2001) 177-184 [Deconinck, Frigyik & Kutz]
  103. Stability of Repulsive Bose-Einstein Condensates in a Periodic Potential , Phys. Rev. E 63 (2001) 036612 [Bronski, Carr, Deconinck, Kutz & Promislow]
  104. Stability of stationary states in the cubic nonlinear Schrodinger equation: Applications to the Bose-Einstein condensate , Phys. Rev. E 63 (2001) 066604 [Carr, Kutz & Reinhardt]
  105. Bose-Einstein condensates in standing waves: the cubic nonlinear Schrodinger equation with a periodic potential , Phys. Rev. Lett. 86 (2001) 1402-1405 [Bronski, Carr, Deconinck & Kutz]
  106. Bifurcation and asymptotic stability in the large detuning limit of the optical parametric oscillator, Nonlinearity 13 (2000) 675-698 [Promislow & Kutz]
  107. Passive mode-locking in optical fiber lasers by nonlinear polarization rotation, IEEE Journal of Quantum Electronics 36 (2000) 465-471 [Kim, Kutz & Muraki]
  108. Curvature dynamics and stability of topological solitons in the optical parametric oscillator, J. Opt. Soc. Am. B 16 (1999) 1936-1941 [Kutz, Erneux, Trillo & Haelterman]
  109. Nonsoliton pulse evolution in normally dispersive fibers, J. Opt. Soc. Am. B 16 (1999) 1856-1862 [Forest, Kutz & McLaughlin]
  110. Observation of the breakup of a pre-chirped N-soliton in an optical fiber, Optics Letters 24 (1999) 1191-1193 [Krylov, Leng, Bergman, Bronski & Kutz]
  111. Numerical simulation of the semiclassical limit of the focusing nonlinear Schrodinger equation, Phys. Lett. A 254 (1999) 325-336 [Bronski & Kutz]
  112. Dynamics and bifurcations of a planar map modelling dispersion managed breathers, SIAM J. Appl. Math. 59 (1999) 1288-1302 [Holmes & Kutz]
  113. Global existence and uniqueness for an optical fiber laser model, Nonlinearity 11 (1998) 1489-1504 [Mielke, Holmes & Kutz]
  114. Stabilized pulse spacing in soliton lasers due to gain depletion and recovery , IEEE J. Quant. Elec. 34 (1998) 1749-1757 [Kutz, Collings, Bergman & Knox]
  115. Mode Mixing and Power Diffusion in Multimode Optical Fibers, J. of Lightwave Tech. 16 (1998) 1195-1202 [Kutz, Cox & Smith]
  116. Noise induced amplitude and chirp jitter in dispersion-managed soliton communications, Opt. Lett. 23 (1998) 1022-1024 [Kutz & Wai]
  117. Dispersion-managed breathers with average normal dispersion, Opt. Lett. 23 (1998) 685-687 [Kutz & Evangelides]
  118. Gordon-Haus timing jitter reduction in dispersion-managed soliton communications, IEEE Pho. Tech. Lett. 10 (1998) 702-704 [Kutz & Wai]
  119. Ideal amplifier spacing for reduction of Gordon-Haus jitter in dispersion-managed soliton communications, Elec. Lett. 34 (1998) 322-323 [Kutz & Wai]
  120. Hamiltonian dynamics of dispersion managed breathers, J. of the Opt. Soc. Am. B, 15 (1998) 87-96 [Kutz, Holmes, Evangelides, & Gordon]
  121. Short cavity Erbium/Ytterbium fiber lasers modelocked with a saturable Bragg reflector, IEEE J. Selec. Top. Quant. Elec. 3, no. 4 (1997) 1065-1075 [Collings, Tsuda, Cundiff, Kutz, Koch, Knox & Bergman]
  122. Nonlinear pulse propagation in long-period fiber gratings: theory and experiment, IEEE J. Selec. Top. Quant. Elec. 3, no. 5 (1997) 1232-1245 [Kutz, Eggleton, Stark & Slusher]
  123. Modelocking pulse dynamics in a fiber laser with a saturable Bragg reflector, J. of the Opt. Soc. Am. B, 14 (1997) 2681-2690 [Kutz, Collings, Bergman, Tsuda, Cundiff, Knox, Holmes & Weinstein]
  124. Measurements of nonlinear phase shift during collinear soliton collisions Optics Communications, 141 (1997) 265-268. [Koehler, Kutz, Leng & Bergman]
  125. Asymptotic behavior of the nonlinear Schrodinger equation with rapidly-varying, mean-zero dispersion , Physica D, 108 (1997) 315-329. [Bronski & Kutz]
  126. Guiding-center pulse dynamics in nonreturn-to-zero communications systems with mean-zero dispersion , J. of the Opt. Soc. of Am. B, 14 (1997) 903-911. [Bronski & Kutz]
  127. Analytic study of orthogonally polarized solitons interacting in highly birefringent optical fibers J. of the Optical Society of America B, 14 (1997) 636-642. [Kutz, Koehler, Leng & Bergman]
  128. Modulational stability of plane waves in nonreturn-to-zero communications systems with dispersion management , Optics Letters, 21 (1996) 937-939. [Bronski & Kutz]
  129. Enhanced Power-Transfer and Mode-Coupling in Spun Twin-Core Optical Fibers Optics Letters, 21 (1996) 863-865. [Kutz & Muraki]
  130. Stability of pulses in nonlinear optical fibers using phase-sensitive amplifiers SIAM Journal of Applied Mathematics, 56 (1996) 611-626. [Kutz & Kath]
  131. Fiber Optic Modules for High Speed Interconnects LEOS Newsletter, 10 (1996) 17-20. [Bergman, Koehler, Kutz & Prucnal]
  132. Pulse propagation in nonlinear optical fiber lines that employ phase-sensitive parametric amplifiers, J. Opt. Soc. Am. B, 11 (1994) 2112-2123. [Kutz, Hile, Kath, Kumar & Li]
  133. Phase Sensitive Amplifiers for Ultra-long Distance Propagation Optics & Photonics News, 4 (1993) 11. [Kath, Kumar, Kutz & Li]
  134. Long-distance pulse propagation in noninear optical fibers by using periodically spaced parametric amplifiers , Optics Letters 18 (1993) 802-804. [Kutz, Kath, Kumar & Li]
  135. Combating Dispersion with Parametric Amplifiers IEEE Photonics Technologies Letters, 5 (1993) 669-672. [Kumar, Li, Kath & Kutz]

  136. Refereed Proceedings

  137. Long-distance pulse propagation in nonlinear optical fibers by using periodically spaced parametric amplifiers, Quantum Electronics and Laser Science Conference Proceedings 12 (1993) 289 [Kutz, Kath, Li & Kumar]
  138. Long-distance pulse propagation in nonlinear optical fibers using periodically spaced parametric amplifiers , Integrated Photonics Research Proceedings 10 (1993) 48 [Kutz, Kath, Li & Kumar]
  139. Dispersion compensation with phase-sensitive amplifiers, OSA Annual Meeting Technical Digest 16 (1993) 100 [Kutz, Kath, Li & Kumar]
  140. Suppression of dispersion in NRZ communication systems using dispersion management, CLEO Technical Digest 9 (1996) 404 [Kutz & Bronski]
  141. Ultrafast switching in highly birefringent fiber via soliton collision, CLEO Technical Digest 9 (1996) 130 [Kutz, Koehler, Leng & Bergman]
  142. Measurements of the nonlinear phase shift from orthogonally polarized soliton collisions, OSA 1996 Nonlinear Optics Topical Meeting, Paper NFB2 [Koehler, Leng, Kutz & Bergman]
  143. Dynamics of Passive Modelocking with Saturable Bragg Reflector (SBR) in Fiber Lasers, LEOS'96 Conference Proceedings 2 (1996) 28 [Kutz & Bergman]
  144. Low latency, ultrafast fiber loop mirror switch using orthogonally polarized signal and control solitons , OSA Trends in Optics and Photonics 13 (1997) Ultrafast Electronics and Optoelectronics [Koehler, Leng, Kutz & Bergman]
  145. Mode-locking pulse dynamics in fiber lasers , CLEO Technical Digest X (1997) [Kutz, Bergman, Tsuda, & Knox]
  146. Low-latency, ultrafast fiber loop mirror switch with 1.2-ps timing jitter tolerance, CLEO Technical Digest X (1997) [Koehler, Leng, Kutz & Bergman]
  147. Modelocking pulse dynamics in fiber lasers , Proceedings of Photonics West 98 (1998) 3283 [Kutz]
  148. Dispersion-managed solitons with average normal dispersion, Nonlinear Guided Waves & Their Applications 5 (1998) [Kutz & Evangelides]
  149. Harmonic modelocking dynamics in optical fiber lasers , SPIE Laser Optics 98 (1998) [Kutz]
  150. Amplitude, chirp, and timing jitter in dispersion-managed soliton communications, 1998 International Workshop on Optical Soliton Transmission Systems and Devices (1998) [Kutz & Wai]
  151. Multi-gigahertz femtosecond fiber lasers by passive mode locking, Photonics East 99 (1998) 3542 [Collings, Bergman, Kutz & Knox]
  152. Chirped pulse propagation and break-up in low-dispersion optical fibers, Aspen (1999) [Kutz, Krylov, Leng, Bergman & Bronski]
  153. Propagation and break-up of pre-chirped N-soliton pulses in anomalous optical fibers, Nonlinear Guided Waves and Their Applications, ThD22, 322-324 (1999), Dijon, France [Kutz, Krylov, Leng, Bergman & Bronski]
  154. Curvature dynamics and fronts in the optical parametric oscillator, Nonlinear Guided Waves and Their Applications, WD38, 168-170 (1999), Dijon, France [Kutz, Erneux, Trillo & Haelterman]
  155. Observation of a two-stage soliton breakup, Nonlinear Optics: Materials, Fundamentals, and Applications, ThA5, 316-318 (2000), Kaua'i-Lihue, Hawaii [Krylov, Kutz, Sears & Bergman]
  156. Control of pulse-train uniformity with passive polarizers in mode-locked optical fiber lasers, Nonlinear Optics: Materials, Fundamentals, and Applications, ThB25, 388-390 (2000), Kaua'i-Lihue, Hawaii [Kutz, Kim, Yong & Spaulding]
  157. Pulse-train uniformity in mode-locked optical fiber lasers, Proceedings of Photonics West 01 (2001) San Jose, CA [Kutz, Spaulding, Kim & Yong]
  158. Bose-Einstein condensates trapped in standing light waves , Nonlinear Guided Waves and Their Applications, MC17, 88-90 (2001), Clearwater, FL [Kutz, Deconinck, Carr & Bronski]
  159. Nonlinear dynamics and pulse train uniformity of mode-locking optical fiber ring lasers, Nonlinear Guided Waves and Their Applications, MC58, 208-210 (2001), Clearwater, FL [Kutz, Spaulding, Yong & Kim]
  160. Pulse train dynamics in actively modelocked lasers, Nonlinear Guided Waves and Their Applications, NLTuD24 (2002), Stresa, Italy [Kutz & O'Neil]
  161. Nonlocal mean-field theory in N-body quantum mechanics for Bose-Einstein condensation, Nonlinear Guided Waves and Their Applications, NLTuD40 (2002), Stresa, Italy [Kutz & Deconinck]
  162. Modelocking in a fiber laser with a long period fiber grating, Proceedings of Photonics West 2003, 4974, 17-25 (2003) San Jose, CA [Kutz & Intrachat]
  163. Pulse train dynamics in actively mode-locked lasers , Proceedings of Photonics West 2003, 4986, 563-574 (2003) San Jose, CA [Kutz & O'Neil]
  164. Optical packet switching through multiple nodes in the data vortex architecture, LEOS 2003, 1, 53-54 (2003) Tucson, AZ [Lu, Small, Liboiron-Ladoucear, Kutz & Bergman]
  165. Characterizing and simulating the performance of the physical layer of data vortex switching nodes, LEOS 2003, 1, 59-60 (2003) Tucson, AZ [Small, Kutz, Lu & Bergman]
  166. Spatial solitons in quasi-phase-matched quadratic media, Proceedings of Photonics West 2004, 5337, 81-88 (2004) [Farnum & Kutz]
  167. Propagation of spatially periodic waves in the optical parametric oscillator, Proceedings of Photonics West 2004, 5337, 89-96 (2004) [Hewitt & Kutz]
  168. Modeling, simulating, and characterizing performance in optical switching networks , Proceedings of Photonics West 2004, 5349, 228-235 (2004) [Kutz, Small, Lu & Bergman]
  169. Simulations and modeling of passive modeling using a long period fiber grating, Nonlinear Guided Waves and Their Applications, MC43 (2004), Toronto, Canada [Kutz & Intrachat]
  170. Spatial solitons in quasi-phase-matched quadratic media: an asymptotic approach, Nonlinear Guided Waves and Their Applications, TuC18 (2004), Toronto [Farnum & Kutz]
  171. Bit Error Ratio Improvement by Two Transfer Function Regenerators, CLEO Technical Digest, JThE63 (2005) [Rochette, Blows, Moss, Mok, Eggleton & Kutz].
  172. Theory of Multi-Frequency Mode-Locked Lasers, Nonlinear Guided Waves and Their Applications, ThB3 (2005), Dresden, Germany [Farnum & Kutz]
  173. Modeling Q-Switching in Actively Mode-Locked Lasers, Nonlinear Guided Waves and Their Applications, ThB23 (2005), Dresden, Germany [Proctor & Kutz]
  174. Waveguide Arrays for Passive Temporal Mode-Locking, Nonlinear Guided Waves and Their Applications, TuC6 (2005), Dresden, Germany [Kutz & Proctor]
  175. Dispersion-Management for Enhancing Supercontinuum Generation in Optical Fiber, Nonlinear Guided Waves and Their Applications, TuD4 (2005), Dresden, Germany [Kutz, Lynga & Eggleton]
  176. The Dynamics of the Optical Parametric Oscillator Near Resonance Detuning, Nonlinear Guided Waves and Their Applications, WD5 (2005), Dresden, Germany [Osting, Hewitt & Kutz]
  177. Dynamics of Passive Harmonic Mode-Locking, Nonlinear Photonics, NThB6 (2007), Quebec City, Canada ( Kutz & Sandstede)
  178. Waveguide Arrays for Mode-Locking X-Wave Lasers, Nonlinear Photonics, NWA5 (2007), Quebec City, Canada (Kutz, Conti & Trillo)
  179. Stability of Transverse Field Structures in Two-Dimensional Optical Parametric Oscillators, Nonlinear Photonics, JWA3 (2007), Quebec City, Canada (Nishimura & Kutz)
  180. Spectral Filtering for Ultra-Fast Mode-Locking in the Normal Dispersive Regime, Nonlinear Photonics, JWA16 (2007), Quebec City, Canada (Bale & Kutz)
  181. Multi-Frequency Mode-Locking with Waveguide Arrays, Nonlinear Photonics, JWA17 (2007), Quebec City, Canada (Bale, Farnum & Kutz)
  182. Nonlinear Femtosecond Pulse Reshaping in Waveguide Arrays, CLEO Technical Digest, CThDD5 (2008), San Jose, CA (Hudson, Schibli, Cundiff, Shish, Kutz, Morandotti & Christodoulides)
  183. Multi-frequency mode-locked lasers, ICIAM07, 7 1130305-1130306 (2007), Zurich, Switzerland (Farnum & Kutz)
  184. Spectral filtering for ultra-fast mode-locking in the normal dispersive regime, ICIAM07, 7 2130005- 2130006 (2007), Zurich, Switzerland (Bale & Kutz)
  185. Parabolic pulse propagation in mean-zero dispersion-managed transmission systems and mode-locked laser cavities, SPIE Optics+Optoelectronics 7354, 735416 (2009) (Bale & Kutz)
  186. Application of waveguide arrays and spectral filtering for a multi-frequency picosecond mode-locked pulse source, SPIE Optics+Optoelectronics 7354, 73540Q (2009) (Farnum, Bale & Kutz)
  187. Spectral filtering highly-chirped pulses in all-normal dispersion fiber lasers, Proceedings of Photonics North 09 7386, 73860N (2009) (Bale & Kutz)
  188. Analytic theory of self-similar mode-locking with rapidly varying, mean-zero dispersion, Proceedings of Photonics North 09 7386, 73860M (2009) (Bale & Kutz)
  189. Stability analysis of the mode-locking dynamics in a laser cavity with a passive polarizer, Proceedings of Photonics North 09 7386, 73861Z (2009) (Ding & Kutz)
  190. Optimizing waveguide array mode-locking for high-power fiber lasers, Proceedings of Photonics North 09 7386, 73862W (2009) (Bale, Kutz & Sandstede)
  191. Waveguide Arrays and Spectral Filtering for Multi-Frequency Mode-locked Pulse Sources, Proceedings of Photonics North 09 7386, 73862E (2009) (Farnum, Bale & Kutz)
  192. Theory of mode-locking using phase-sensitive amplification for saturable absorption, Proceedings of Photonics North 09 7386, 73862T (2009) (Hachey, Jones & Kutz)
  193. Numerical simulations of the spatial-temporal dynamics and mode-locking in a waveguide array laser cavity, Proceedings of Photonics North 09 7386, 73862F (2009) (McGrath & Kutz)
  194. Optical Intensity Dynamics in a Five-Emitter Semiconductor Array Laser, Proceedings of Photonics North 09 7386, 738620 (2009) (Williams & Kutz)
  195. Optimizing Waveguide Array Mode-Locking for High-Power Fiber Lasers, CLEO Europe 2009 Technical Digest CJ.P.38 THU (2009) (Bale, Kutz & Sandstede)
  196. Spectral Filtering Highly-Chirped Pulses in All-Normal Dispersion Fiber Lasers, Nonlinear Optics 2009 Technical Digest NWD4 (2009) (Bale & Kutz)
  197. Intensity Dynamics in Semiconductor Laser Arrays, Nonlinear Optics 2009 Technical Digest JTuB14 (2009) (Williams & Kutz)
  198. Stability Analysis of the Mode-Locking Dynamics in a Laser Cavity with a Passive Polarizer, Nonlinear Optics 2009 Technical Digest JTuB18 (2009) (Ding & Kutz)
  199. Dynamics and Stability of Mode-Locking Using Phase-Sensitive Amplification, Nonlinear Optics 2009 Technical Digest NTuA6 (2009) (Hachey & Kutz)
  200. Spectral Filtering Highly-Chirped Pulses in All Normal Dispersion Fiber Lasers, Proceedings of the World Congress on Engineering 2009 1, 367-370 (2009) (Bale & Kutz)
  201. Stability Analysis of the Mode-Locking Dynamics in a Laser Cavity with a Passive Polarizer, Proceedings of the World Congress on Engineering 2009 2, 945-940 (2009) (Ding & Kutz)
  202. Modeling Parabolic Pulse Formation in Mode-Locked Laser Cavities, Proceedings of the World Congress on Engineering 2009 2, 1203-1208 (2009) (Bale & Kutz)
  203. Intensity Dynamics in a Waveguide Array Laser, Proceedings of the World Congress on Engineering 2009 2, 1127-1130 (2009) (Williams & Kutz)
  204. Energy enhancements in mode-locked laser cavities using multi-mode fiber lasers, Proceedings of Photonics West 2010 7580, 758022 (2010) (Ding & Kutz)
  205. Two-dimensional mode-locking in planar waveguide arrays, Proceedings of Photonics West 2010 7600, 76001L (2010) (Williams & Kutz)
  206. The critical role of intracavity dynamics in high-power mode-locked fiber lasers, Proceedings of Photonics West 2010 7580, 75800W (2010) (Bale & Kutz)
  207. Mode-locked laser pulse sources for wavelength division multiplexing, Proceedings of Photonics West 2010 7582, 758216 (2010) (Farnum, Bale & Kutz)
  208. Mode-locking with phase-sensitive (parametric) amplification, Proceedings of Photonics West 2010 7582, 758215 (2010) (Hachey, Jones & Kutz)
  209. Operating regimes and performance optimization of the mode-locking dynamics of a laser cavity with passive polarizer, Proceedings of Photonics West 2010 7580, 758020 (2010) (Ding & Kutz)
  210. Characterizing the transition dynamics for multi-pulsing in mode-locked lasers, Proceedings of Photonics West 2010 7580, 75801Z (2010) (Bale, Kieu, Wise & Kutz)
  211. Intracavity dynamics for power and energy enhancement in mode-locked lasers, Proceedings of the International Conference on Electrical Engineering 2010 2, 1097-1102 (2010) (Bale & Kutz)
  212. Light bullet mode-locking in waveguide arrays, Proceedings of the International Conference on Electrical Engineering 2010 2, 1315-1320 (2010) (Williams & Kutz)
  213. Operating Regimes and Performance Optimization in Mode-Locked Fiber Lasers, Proceedings of Nonlinear Photonics 2010, NTuC15 (2010) (Ding & Kutz)
  214. Transition Dynamics For Multi-pulsing In Mode-locked Lasers, Proceedings of Nonlinear Photonics 2010, NWB8 (2010) (Bale, Kieu, Kutz & Wise)
  215. Studies on nonlinear loss and laser dynamics: from multiwavelength CW lasing to multi-pulsing transition, Proceedings of SPIE/COS Photonics Asia 2010, 7847-42 (2010) (Li, Kutz & Wai)
  216. Intra-cavity Dynamics in High Power Mode-locked Fiber Lasers, Proceedings of Nonlinear Photonics 2010, NTuA4 (2010) (Bale, Boscolo, Kutz & Turitsyn)
  217. Mode-locking Of Light-bullets In Planar Waveguide Arrays, Proceedings of Nonlinear Photonics 2010, NME43 (2010) (Williams & Kutz)
  218. Operating Regimes and Performance Optimization in Mode-Locked Fiber Lasers, Proceedings of Laser Optics 2010, TuR3-p06 (2010) (Ding & Kutz)
  219. Mode-Locking of Light-Bullets in Planar Waveguide Arrays, Proceedings of Laser Optics 2010, TuR3-07 (2010) (Williams & Kutz)
  220. Studies on nonlinear loss and laser dynamics: from multi-wavelength CW lasing to multi-pulsing transition, Proceedings of Photonics Asia 2010, Beijing, China 7847-42 (2010) (Li, Kutz & Wai).
  221. Light-bullet routing and logic in planar waveguide arrays , Proceedings of Photonics West 2011, San Francisco CA 7941-12 (2011) (Williams & Kutz).
  222. Energy enhancement in mode-locked lasers using sinusoidal transmission functions for saturable absorption , Proceedings of Photonics West 2011, San Francisco CA 7933-73 (2011) (Ding, Shlizerman & Kutz).
  223. Characterizing and suppressing multi-pulsing instabilities in mode-locked lasers, Proceedings of Photonics West 2011, San Francisco CA 7933-55 (2011) (Shlizerman, Ding & Kutz).
  224. Mode-locking theory for ultra-short few-femtosecond laser pulses, Proceedings of Photonics West 2011, San Francisco CA 7933-53 (2011) (Farnum & Kutz).
  225. Non-adiabatic pulse compression using cascaded higher-order solitons, Proceedings of Photonics West 2011, San Francisco CA 7914-58 (2011) (Li, Wai & Kutz).
  226. Passive mode-locking using multi-mode fiber, Proceedings of Photonics West 2011, San Francisco CA 7914-56 (2011) (Ding, Lefrancois, Wise & Kutz).
  227. Cascaded second-order soliton for high-coherence supercontinuum generation Cascaded second-order soliton for high-coherence supercontinuum generation, Proceedings of Opto-Electronics and Communications 2011, Kaohsiung, Taiwan 7P3-00293 (2011) (Li, Wai & Kutz)
  228. A Reduced Dimensional Model for the Multi-Pulsing Transition in a Waveguide Array Mode-Locked Laser, Proceeding of Nonlinear Optics 2011, Kaui, HI NWE22 (2011) (Williams, Shlizerman & Kutz)
  229. Energy Enhancement of Mode-Locked Fiber Lasers with Sinusoidal Transmission, Proceeding of Nonlinear Optics 2011, Kaui, HI NThC3 (2011) (Ding & Kutz)
  230. Atomic Interaction Effects In Precision Atom Interferometry Using Bose-Einstein Condensates, Proceedings of WAVES 2011, Vancouver, BC (2011) (Jamison, Kutz & Gupta)
  231. Low Dimensional Modeling of Time-Periodic Surface Gravity Waves, Proceedings of WAVES 2011, Vancouver, BC (2011) (Williams, Shlizerman & Kutz)
  232. Dissipative Soliton Resonance in a Passively Mode-Locked Fiber Laser, Proceedings of WAVES 2011, Vancouver, BC (2011) (Ding, Grelu & Kutz)
  233. Principal component analysis for low-dimensional modeling of mode-locked lasers, Proceedings of WAVES 2011, Vancouver, BC (2011) (Shlizerman, Ding, Williams & Kutz)
  234. The short-pulse equation and mode-locked lasers, Proceedings of WAVES 2011, Vancouver, BC (2011) (Farnum & Kutz)
  235. Control, Routing and Mode-Locking Generation of Light Bullets in Planar Waveguide Arrays, Proceedings of NUSOD 11, Rome, Italy (2011) (Williams & Kutz)
  236. Pulse Compression and Super-Continuum Generation using Cascaded Higher-Order Solitons, Proceedings of NUSOD 11, Rome, Italy (2011) (Li, Wai & Kutz)
  237. Dissipative soliton resonances in laser systems: latest developments, Proceedings of International Workshop: Nonlinear Photonics, St. Petersburg, Russia (2011) (Grelu, Ding, Chang, Soto-Crespo, Kutz, Ankiewics & Akhmediev)
  238. Analysis of the Multi-Pulsing Instability in Mode-Locked Lasers Using Dynamical Dimension Reduction, Proceedings of Nonlinear Photonics 2012, JM5A.42 , Colorado Springs, CO (2012) (Shlizerman & Kutz)
  239. Multiple transmission filters for enhanced energy in mode-locked fiber lasers, Proceedings of Nonlinear Photonics 2012, JTu5A.26 , Colorado Springs, CO (2012) (Li, Wai & Kutz)
  240. Competing spatiotemporal neural codes in the olfaction of the Manduca sexta moth, BMC Neuroscience - CNS 2012, 13(Suppl 1):O18 Atlanta, Georgia (2012) (Shlizerman, Riffell & Kutz)
  241. WKB Analysis of Fourier Domain Mode Locked Fiber Lasers , Proceedings of CLEO Pacific Rim 2013, Osaka, Japan (2013) (Li, Wai & Kutz)
  242. A reaction-diffusion model of cholinergic retinal waves and self-organized criticality , BMC Neuroscience - CNS 2013, 14(Suppl 1):P230 Paris, France (2013) (Lansdell & Kutz)
  243. Investigating dynamical properties of the Caenorhabditis elegans connectome through full-network simulations , BMC Neuroscience - CNS 2013, 14(Suppl 1):P230 Paris, France (2013) (Kunert, Shlizerman & Kutz)
  244. Single cell neuro-sensory dynamics: Ca2+ chemoreceptor-guided sea urchin sperm motility , BMC Neuroscience - CNS 2013, 14(Suppl 1):P230 Paris, France (2013) (Burton, Hussain, Riffell, Guasto, Stocker, Hosoi & Kutz)
  245. Axonal injuries and consequences to neuronal computation , BMC Neuroscience - CNS 2013, 14(Suppl 1):P230 Paris, France (2013) (Maia & Kutz)
  246. Self-tuning fiber lasers: machine learning applied to optical systems , Nonlinear Photonics 2014, NTu4A.7 Barcelona, Spain (2014) (Kutz, Brunton & Fu)
  247. Statistical description of soliton clustering in fiber lasers with slow-gain dynamics, Nonlinear Photonics 2014, JTu3A.47 Barcelona, Spain (2014) (Kutz & Grelu)
Department of Applied Mathematics University of Washington, Guggenheim Hall #414, Box 352420, Seattle, WA 98195-2420 USA,
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