Invited Papers

161. J. P. Cahill, T. Mahmood, P. G. Sykes, W. Zhou, and C. R. Menyuk, “On-Chip Ultra Low Phase Noise Microwave Generation by Direct Stabilization of Optical Frequency Comb Repetition Rate,” IEEE Research and Applications of Photonics in Defense, Miramar Beach, FL (Aug. 14–16, 2024), paper FE1.1.

160. C. R. Menyuk, L. Courtright, P. Shandilya, G. Moille, and K. Srinivasan, “Multi-Color Broad-Bandwidth Solitons in Microresonators,” SIAM Nonlinear Waves and Coherent Structures (NWCS) Meeting, Nonlinear microresonators and frequency combs: Experiment, Theory, and Simulation Mini-Symposium, Baltimore, MD (July 24–27, 2024).

159. A. Niang, L. Courtright, P. Shandilya, G. M. Carter, and C. R. Menyuk, “Deterministic Access of Kerr Single Solitons in Microresonators,” Multimode Nonlinear Photonics Workshop, S. Wabnitz and F. Wise, organizers, Tata Innovation Center at Cornell Tech, New York, NY (Aug. 14–15, 2023).

158. Curtis R. Menyuk, Pradyoth Shandilya, Logan Courtright, G. Moille, and K. Srinivasan, “Multi-Color Broad-Bandwidth Solitons in Microresonators,” Multimode Nonlinear Photonics Workshop, S. Wabnitz and F. Wise, organizers, Tata Innovation Center at Cornell Tech, New York, NY (Aug. 14–15, 2023).

157. G. Moille, J. Stone, M. Chojnacky, C. R. Menyuk, and K. Srinivasan, “All-Optical Kerr Synchronization of a Dissipative Kerr Soliton Microcomb to a Master Optical Reference,” Optica Nonlinear Optics Topical Meeting, Honolulu, Hawaii (July 10–13, 2023), paper W2A.1.

156. G. Moille, P. Shandilya, M. Chojnacky, C. Li, C. R. Menyuk, and K. Srinivasan, “Two-Dimensional Frequency Comb from a Dual-Pumped Microring Dissipative Kerr Soliton,” Conference on Lasers and Electro-Optics, San Jose, CA (May 7–12, 2023), paper FW4B.1.

155. C. R. Menyuk, “Linn Mollenauer, Solitons in Birefringent Optical Fibers, and PMD,” Conference on Lasers and Electro-Optics, San Jose, CA (May 7–12, 2023), paper JM1C.1.

154. C. R. Menyuk, “Centaνr: Center for Time and Frequency Research,” UMBC CSEE Research Day, Baltimore, MD (May 5, 2023).

153. J. T. Young, C. R. Menyuk, and J. Hu, “Pump Threshold Limits in Fiber Amplifiers With Both the Brillouin and Transverse Mode Instabilities,” Annual Directed Energy Science and Technology Symposium, San Antonio, TX (April 3–6, 2023) [student workshop paper].

152. J. Hu, J. T. Young, and C. R. Menyuk, “Tradeoff Between the Brillouin and Transverse Mode Instability in High-Power Fiber Amplifiers,” 2023 Laser System Modeling and Simulation Workshop, Albuquerque, NM (March 14–16, 2023).

151. C. R. Menyuk, J. T. Young, E. Simsek, and J. Hu, “Efficient Computational Modeling of the Transverse Mode Instability Using the Phase-Matched Model,” 2023 Laser System Modeling and Simulation Workshop, Albuquerque, NM (March 14–16, 2023).

150. J. T. Young, J. Hu, and C. R. Menyuk, “Efficient Modeling of the Transverse Mode Instability Using the Phase Matched Model,” Seventh International Workshop on Specialty Fibers and Their Applications, Adelaide, Australia (Dec. 11–16, 2022).

149. C. R. Menyuk, “Stability and Noise in Ultrafast Lasers,” Advanced Fiber Laser Conference, Changsha, China (Virtual) (Nov. 11–13, 2022), Plenary Session I.

148. C. R. Menyuk and S. Wang, “Stability and noise in frequency combs: efficient and accurate computation using dynamical methods,” SPIE European Security and Defense Meeting, Berlin, Germany (Sept. 5–7, 2022).

147. C. R. Menyuk and S. Wang, “Dynamical Methods for Studying Noise in Frequency-Comb Sources,” Twelfth IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (Mar. 30 – Apr. 1, 2022), session 25.

146. E. Simsek, I. Md Anjum, T. F. Carruthers, and C. R. Menyuk, “Designing Photodetectors with Machine Learning,” Optica Advanced Photonics Congress, Maastricht, Limburg Netherlands (July 24–28, 2022), paper NoWSC.2.

145. C. R. Menyuk, L. Courtright, Z. Qi, S. Wang, and T. F. Carruthers, “Dynamical Methods for Studying Stability and Noise in Frequency Comb Sources,” Progress in Electromagnetics Research Symposium, Hangzhou, China (Virtual) (Pt. 1: Nov. 22, 2021; Pt. 2: April 25–29, 2022), session 2A7b.

144. C. R. Menyuk, L. Courtright, Z. Qi, and S. Wang, “Dynamical Methods for Studying Stability and Noise in Frequency Comb Sources,” AMS Fall Western Virtual Sectional Meeting (Oct. 23–24, 2021), session SS16C.

143. C. R. Menyuk, J. T. Young, J. Hu, A. J. Goers, D. M. Brown, and M. L. Dennis, “Accurate and Efficient Modeling of the Transverse Mode Instability in High-Energy Laser Amplifiers Using the Phase-Matched Model,” SPIE European Security and Defense Meeting 11867, Technologies for Optical Countermeasures XVIII and High-Power Lasers: Technology and Systems, Platforms, Effects V, Madrid, Spain (Virtual) (Sept. 13–16, 2021), paper 118670B.

142. C. R. Menyuk, “Modeling Photodetectors Using the Drift-Diffusion Equations for RF-Photonic Applications,” OSA Webinar (July 15, 2021).

141. C. R. Menyuk, B. Wilson, L. Courtright, Z. Qi, S. Wang, and T. Carruthers, “Dynamical Methods for Studying Stability and Noise in Frequency Comb Sources,” SIAM Conference on Dynamical Systems, Philadelphia, PA (Virtual) (May 23–27, 2021), session MS-15.

140. C. R. Menyuk, Z. Qi, and S. Wang, “Stability and Noise in Frequency Combs: Harnessing the Music of the Spheres,” Ninth International Conference on Industrial and Applied Mathematics, Valencia, Spain (July 15–19, 2019), session MS ME-0-3.

139. C. R. Menyuk, Z. Qi, and S. Wang, “Stability and Noise in Frequency Combs: Harnessing the Music of the Spheres,” Eleventh International IMACS Conference on Nonlinear Evolution Equations and Wave Phenomena, Athens, GA (April 17–19, 2019), session 25.

138. C. R. Menyuk, J. Hu, and J. O. White, “Modeling Brillouin and Rayleigh Suppression in High-Energy Laser Fiber Amplifiers: Optimizing the Input Modulation of an Amplifier,” Workshop on the Modeling and Simulation of Laser Systems, Air Force Research Laboratory Directed Energy Directorate, Albuquerque, NM (Feb. 18–21, 2019).

137. C. R. Menyuk, “Stability and Noise in Frequency Combs; Harnessing the Music of the Spheres,” European Research Council Advanced Workshop on Spatiotemporal Multimode Complex Optical Systems, Dubai, United Arab Emirates (Oct. 16–19, 2018).

136. V. K. Shinglot, J. Zweck, C. R. Menyuk, and Y. Shen, “Dynamics and Noise Performance of Periodically-stationary Pulses in Fiber Lasers,” SIAM Nonlinear Waves and Coherent Systems Conference, Orange, CA (June 10–14, 2018), session MS31.

135. C. R. Menyuk, Z. Qi, and S. Wang, “Instability and Noise in Nonlinear Optical Resonators,” SIAM Nonlinear Waves and Coherent Systems Conference, Orange, CA (June 10–14, 2018), session MS16.

134. C. R. Menyuk, Z. Qi, and S. Wang, “Instability and Noise in Nonlinear Optical Waveguides,” Progress in Electromagnetics Research Symposium, Singapore (Nov. 19–22, 2017), session 2P5a.

133. C. R. Menyuk, C. Wei, R. J. Weiblen, J. Hu, R. R. Gattass, L. Brandon Shaw, and J. S. Sanghera, “Chalcogenide Negative Curvature Fibers,” SPIE European Security and Defense Meeting, Warsaw, Poland (Sept. 11–14, 2017), paper 10435-18.

132. Z. Qi and C. R. Menyuk, “Cnoidal Wave Solutions to the Lugiato-Lefever Equations with Applications to Microresonators,” Tenth IMACS International Conference on Nonlinear Evolution Equations and Wave Theory, Athens, GA (Mar. 29–Apr. 1, 2017), session 18.

131. V. R. Besse, C. Tu, T. DeMenezes, C. R. Menyuk, I. T Lima, Jr., V. S. Grigoryan, “Impact of the Raman Effect on Multi-Eigenvalue Communications,” Nanophotonics Meeting Nanomagnetism Workshop, Le Maine, France (Sep. 20–23, 2016).

130. Z. Qi, G. D’Aguanno, and C. R. Menyuk, “The Lugiato-Lefever Equation and Cnoidal Waves in Microresonators,” SIAM Nonlinear Waves and Coherent Systems Conference, Philadelphia, PA (Aug. 7–11, 2016), session MS38.

129. S. Wang and C. R. Menyuk, “Modeling Modelocked Fiber Lasers With Slow Saturable Absorbers,” SIAM Nonlinear Waves and Coherent Systems Conference, Philadelphia, PA (Aug. 7–11, 2016), session MS38.

128. V. R. Besse, S. Wang, and C. R. Menyuk, “Stability of Short-Pulse Solutions of the Complex Cubic-Quintic Ginzburg-Landau Equation,” SIAM Nonlinear Waves and Coherent Systems Conference, Philadelphia, PA (Aug. 7–11, 2016), session MS38.

127. J. Zweck, Y. Sehn, C. R. Menyuk, and S. Wang, “Spectra of Short Pulse Solutions of the Cubic-Quintic Complex Ginzburg Landau Equation Near Zero Dispersion,” SIAM Nonlinear Waves and Coherent Systems Conference, Philadelphia, PA (Aug. 7–11, 2016), session MS38.

126. C. R. Menyuk and S. Wang, “Spectral Methods for Determining the Stability and Noise Performance of Modelocked Laser Pulses,” SIAM Nonlinear Waves and Coherent Systems Conference, Philadelphia, PA (Aug. 7–11, 2016), session MS29.

125. C. R. Menyuk and S. Wang, “Stability and Noise Performance of Modelocked Lasers: A Status Report,” Nonlinear Waves, Theory and Applications International Conference, Beijing, China (June 25–28, 2016), session MS6.

124. C. R. Menyuk, R. J. Weiblen, J. Hu, I. D. Aggarwal, L. B. Shaw, and J. S. Sanghera, “Maximizing the Bandwidth While Minimizing the Spectral Fluctuations Using Supercontinuum Generation in Photonic Crystal Chalcogenide Fibers,” IEEE Summer Topical Meetings, Nassau, Bahamas (July 13–15, 2015), paper ME3.2.

123. C. R. Menyuk and N. R. Newbury, “Quantitative Modeling of Comb Sources: Short-Pulse Lasers and Microresonators,” OSA Optical Metrology Technical Group, July 1, 2015 [Webinar].

122. C. R. Menyuk, “Quantitative Modeling of Comb Sources: Short-Pulse Lasers and Microresonators,” OSA Incubator on Quantitative Modeling of Frequency-Comb Sources, Washington, DC (Nov. 19–21, 2014).

121. C. R. Menyuk, “Maximizing the Bandwidth While Minimizing the Spectral Fluctuations Using Supercontinuum Generation in Photonic Crystal Chalcogenide Fibers,” OMICS Lasers, Optics, and Photonics Conference, Philadelphia, PA (Sep. 8–10, 2014).

120. C. R. Menyuk, “Solitons, Self-Induced-Transparency, and Quantum Cascade Lasers,” SIAM Nonlinear Waves Meeting, Cambridge, United Kingdom (Aug. 11–14, 2014), session MS-72.

119. S. Wang and C. R. Menyuk, “Stability of Modelocked Lasers With Slow Saturable Absorbers,” SIAM Nonlinear Waves Meeting, Cambridge, United Kingdom (Aug. 11–14, 2014), session MS-35.

118. M. A. Talukder and C. R. Menyuk, “Modelocking Quantum Cascade Lasers Using Quantum Coherent Saturable Absorption,” SIAM Nonlinear Waves Meeting, Cambridge, United Kingdom (Aug. 11–14, 2014), session MS-20.

117. C. R. Menyuk and S. Wang, “Boundary Tracking Algorithms for Determining the Stability of Modelocked Lasers,” American Mathematical Society Western Spring Sectional Meeting, Albuquerque, NM (Apr. 4–6, 2014), paper 1099-78-140.

116. C. R. Menyuk, R. J. Weiblen, J. Hu, I. D. Aggarwal, L. B. Shaw, J. S. Sanghera, “Maximizing the Bandwidth While Minimizing the Spectral Fluctuations Using Supercontinuum Generation in Photonic Crystal Chalcogenide Fibers,” SPIE Security and Defense, Dresden, Germany (Sept. 23–26, 2013), paper 8898-12.

115. O. Okusaga, J. P. Cahill, W. Zhou, C. R. Menyuk, and G. M. Carter, “Noise Sources in Microwave Photonic Links,” IEEE Photonics Society Conference, Seattle, WA (Sept. 8–12, 2013), paper TuC2.1.

114. C. R. Menyuk, “Self-Similarity, Integrability, and Accordions in Transient Stimulated Raman Scattering,” Conference on Nonlinear Systems and Summer School, Kathmandu, Nepal (June 18–22, 2013), keynote lecture.

113. Y. K. Chembo and C. R. Menyuk, “Spatiotemporal Model for Optical Frequency Comb Generation Based on Monolithic Whispering Gallery Mode Resonators,” Nonlinear Waves—Theory and Applications, Beijing, China (June 12–15, 2013), session MS7(II).

112. C. R. Menyuk and S. Wang, “Finding the Stability of Modelocked Pulses Over a Broad Parameter Range,” Nonlinear Waves—Theory and Applications, Beijing, China (June 12–15, 2013), session MS7(I).

111. C. R. Menyuk, “Self-Similarity, Integrability, and Accordions in Transient Stimulated Raman Scattering,” IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (Mar. 23–28, 2013), keynote lecture.

110. B. S. Marks and C. R. Menyuk, “C. V. Raman and the Raman Effect: Past and Present,” Reception and Dinner in Honor of C. V. Raman, Linthicum, MD (Dec. 8, 2012).

109. B. S. Marks and C. R. Menyuk, “Effect of Birefringent Beat Length on Variability in Passively Modelocked Fiber Lasers,” SIAM Nonlinear Waves, Seattle, WA (June 13–16, 2012), session MS-44.

108. S. Wang, A. Docherty, B. Marks, and C. R. Menyuk, “Linearized Stability Analysis of the Haus Mode-Locking Equation,” SIAM Nonlinear Waves, Seattle, WA (June 13–16, 2012), session MS-38.

107. M. Shtaif and C. R. Menyuk, “Carrier-Envelope Phase Locking of Multi-Pulse Lasers,” SIAM Nonlinear Waves, Seattle, WA (June 13–16, 2012), session MS-31.

106. W. Zhou, O. Okusaga, E. Levy, J. P. Cahill, A. Docherty, C. R. Menyuk, G. M. Carter, and M. Horowitz, “Potentials and Challenges for Optoelectronic Oscillator,” SPIE Photonics West, San Francisco, CA (Jan. 21–26, 2012), paper 8255-59.

105. C. R. Menyuk, J. Hu, R. J. Weiblen, and A. Docherty, “Supercontinuum Generation at Mid-IR Wavelengths in Chalcogenide Photonic Crystal Fibers

104. C. R. Menyuk, “Self-Similarity, Integrability, and Accordions in Transient Stimulated Raman Scattering,” Max-Planck Institute for the Science of Light Workshop, Schloss Ringberg, Germany (June 1–4, 2011).

103. C. R. Menyuk, “Nonlinearity and Phase Noise in High-Current Photodetectors,” Optical Fiber Communications Conference, Los Angeles, CA (March 6–10, 2011), paper OThW6.

102. C. R. Menyuk, “Maximizing the Bandwidth From Supercontinuum Generation in Chalcogenide Photonic Crystal Fibers,” NATO SET-171 Workshop: Mid-Infrared Fiber Lasers, Saint-Louis, France (Sept. 28–29, 2010).

101. T. G. Giallorenzi and C. R. Menyuk, “Flat-Panel Imaging of Incoherent Images: Goals and Challenges,” ONR Workshop on Non-Coherent Lensless Imaging, Washington, DC (Sept. 20, 2010).

100. C. R. Menyuk and A. Docherty, “Modeling RF-Photonic Systems Over Multiple Time and Frequency Scales,” Workshop on Multi-Scale Multi-Disciplinary Modeling of Electronic Materials, Fairfax, VA (Sept. 1–2, 2010).

99. J. W. Zweck and C. R. Menyuk, “Dynamics and Timing Jitter of an Ytterbium-Doped Fiber Laser,” SIAM Nonlinear Waves Conference, Philadelphia, PA (Aug. 15–19, 2010), session MS54.

98. C. R. Menyuk and M. A. Talukder, “Self-Induced Transparency Modelocking in Quantum Cascade Lasers,” SIAM Nonlinear Waves Conference, Philadelphia, PA (Aug. 15–19, 2010), session MS45.

97. C. R. Menyuk, “The Fluctuation-Dissipation Theorem and Birefringence in Optical Fibers,” IEEE Photonics Summer Topicals Meeting: Polarization Division Multiplexed Optical Transmission Systems, Playa del Carmen, Mexico (July 19–21, 2010), paper TuA1.1 (tutorial).

96. C. R. Menyuk, “Maximizing the Bandwidth From Supercontinuum Generation in Chalcogenide Photonic Crystal Fibers,” COST-299: Optical Fibers for New Challenges Facing the Information Society, Cluj-Napoca, Romania (March 15–17, 2010), section WG3 (plenary).

95. C. R. Menyuk, “Open Problems in Modeling Short-Pulse, Passively-Modelocked Lasers,” SIAM Annual Meeting, Denver, CO (July 5–10, 2009), session MS66.

94. C. R. Menyuk, “Solitons, Similaritons, and the Second Coming,” Symposium in Honor of G. Stegeman’s 65-th Birthday, Orlando, FL (Aug. 2, 2008).

93. C. R. Menyuk, S. Cundiff, T. Schibli, J. Wahlstrand, and J. Willits, “New Approaches to Quantitative Modeling of Modelocked Lasers,” SIAM Nonlinear Waves Conference, Rome, Italy (July 21–24, 2008), session MS47.

92. C. R. Menyuk, “Partially Polarized Noise in Optical Fiber Communications Systems,” SIAM Nonlinear Waves Conference, Rome, Italy (July 21–24, 2008), session MS38.

91. S. T. Cundiff, J. K. Wahlstrand, J. Willits, T. R. Schibli, and C. R. Menyuk, “Femtosecond Comb Linewidths Due to Pulse Dynamics in a Mode-Locked Laser,” IEEE Lasers and Electro-Optic Society Annual Meeting, Lake Buena Vista, FL (Oct. 21–25, 2007), paper ThD4.

90. C.R. Menyuk, “Modelocking in Quantum Cascade Lasers,” SIAM Conference on Mathematics for Industry, Philadelphia, PA (Oct. 9–11, 2007), paper MS10-1.

89. S.T. Cundiff, J.K. Wahlstrand, J. Willits, R.P. Smith, T.R. Schibli, and C.R. Menyuk, “Pulse Dynamics in Mode-Locked Lasers,” Nonlinear Photonics Topical Meeting, Quebec City, Quebec, Canada (Sept. 2–6, 2007), paper NThA1.

88. C.R. Menyuk, J. Zweck, G.M. Carter, and J.M. Morris, “Accurate Calculation of Bit Error Ratios in Optical Fiber Communication Systems,” 2007 NSF ECCS Grantees’ Workshop, Reno, NV (April 30–May 2, 2007), paper 4.15.

87. S.T. Cundiff, J.K. Wahlstrand, J. Willits, R.P. Smith, and C.R. Menyuk, “Pulse Dynamics in Mode-Locked Lasers,” Progress in Electromagnetics Research Symposium, Beijing, China (March 26–30, 2007), paper 4A3.5.

86. C.R. Menyuk, “Comparison of Importance Sampling and Multi-Canonical Monte Carlo Methods in Calculating the Performance of Optical Fiber Communication Systems,” Workshop on Nonlinearity and Randomness in Complex Systems, Buffalo, NY (March 31–April 2, 2006).

85. C.R. Menyuk, “Advanced Monte Carlo Methods in Optical Fiber Communications,” Second Workshop on the Science and Technology of Optical Communications Systems, Campinas, Brazil (Nov. 16–20, 2005).

84. C.R. Menyuk, “Partially Polarized Noise in Optical Fiber Communications Systems,” Optoelectronics and Communications Conference, Seoul, Korea (July 4–8, 2005), paper 5B1-4.

83. C.R. Menyuk, B.S. Marks, and J. Zweck, “The Covariance Matrix Method and Its Relation to Soliton Perturbation Theory,” International Conference on Nonlinear Waves, Integrable Systems, and Their Applications, Colorado Springs and Boulder, CO (June 4–8, 2005).

82. C.R. Menyuk, B.S. Marks, and J. Zweck, “A Methodology for Calculating Performance in an Optical Fiber Communications System,” Tyrrhenian International Workshop on Digital Communications, Pisa, Italy (Oct. 17–18, 2004), paper 3.1.

81. C.R. Menyuk and R. Holzlöhner, “Modeling Noise in Optical Fiber Communications Systems,” Optical Fiber Communication Conference, Los Angeles, CA (Feb. 22–27, 2004), paper TuN5.

80. C.R. Menyuk, “Accurate Calculation of the Bit Error Ratios in Optical Fiber Communications Systems,” Conference on Lasers and Electro-Optics — Pacific Rim, Taipei, Taiwan (Dec. 15–19, 2003), paper TU4A (tutorial).

79. C.R. Menyuk, “Accurate Calculation of the Bit Error Ratios in Optical Fiber Communications Systems,” European Conference on Optical Communications, Rimini, Italy (Sept. 21–25, 2003), paper Tu1.3 (tutorial).

78. C.R. Menyuk, “PMD Modeling: Can It Help Us?” European Conference on Optical Communications, Rimini, Italy (Sept. 21–25, 2003), presented in workshop W3.

77. C.R. Menyuk, “Modeling Noise in Optical Fiber Communications Systems,” The Third IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (April 7–10, 2003).

76. C.R. Menyuk, “So, You Want to Work With Engineers?: Some ‘Do’s and ‘Don’t’s,” The Third IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (April 7–10, 2003), (plenary).

75. C.R. Menyuk, R. Holzlöhner, I.T. Lima, Jr., and B.S. Marks, “Advances in Modeling High-Data-Rate Optical Fiber Communication Systems,” SIAM Conference on Computational Science and Engineering, San Diego, CA (Feb. 10–13, 2003), session MS77.

74. J. Zweck, I.T. Lima, Jr., R. Holzlöhner, and C.R. Menyuk, “New Advances in Modeling Optical Fiber Communication Systems,” Integrated Photonics Research Topical Meeting, Vancouver, Canada (July 17–19, 2002), paper IThB1.

73. J. Zweck and C.R. Menyuk, “Mitigation of Nonlinear Impairments in High-Data-Rate Optical Fiber Communication Systems,” Society for Industrial and Applied Mathematics 50th Anniversary and 2002 Annual Meeting, Philadelphia, PA (July 8–12, 2002), paper MS7.4.

72. B.S. Marks, Y. Sun, G.M. Carter, and C.R. Menyuk, “Interaction of Polarization Effects in Fiber Optic Communication Systems,” Society for Industrial and Applied Mathematics 50th Anniversary and 2002 Annual Meeting, Philadelphia, PA (July 8–12, 2002), paper MS7.2.

71. C.R. Menyuk, “Interaction of Nonlinearity and Polarization Effects in Optical Fibers,” Venice Summer School on Polarization Mode Dispersion, Venice, Italy (June 24–26, 2002).

70. J. Maloney, B. Brewington, and C.R. Menyuk, “Computer Aided Design of Long-Haul Optical Transmission Systems,” 39th Design Automation Conference, New Orleans, LA (June 10–14, 2002), paper 16.2.

69. W.L. Kath, G. Biondini, I.T. Lima, B. Marks, and C.R. Menyuk, “Calculations of Outage Probability Due to PMD Using Importance Sampling,” IEEE Lasers & Electro-Optics Society Annual Meeting, La Jolla, CA (Nov. 11–15, 2001).

68. J. Zweck and C.R. Menyuk, “Reduction of Nonlinear Effects in Optical Fiber Communication Systems,” Southeast Conference on Applied Mathematics, North Carolina State University, Raleigh, NC (Nov. 9–11, 2001).

67. C.R. Menyuk, R. Holzlöhner, and I.T. Lima, Jr., “New Approaches for Modeling High Data Rate Optical Fiber Communication Systems,” Optical Society of America Annual Meeting, Long Beach, CA (Oct. 14–18, 2001), paper ThFF1.

66. C.R. Menyuk, R. Holzlöhner, and I.T. Lima, Jr., “Advances in Modeling Optical Fiber Transmission Systems,” IEEE/LEOS Summer Topical Meeting, Copper Mountain, CO (July 30–Aug. 1, 2001), paper MC1.2.

65. C.R. Menyuk and R.-M. Mu, “Dispersion-Managed Solitons and Chirped RZ: What is the Difference?” Nineteenth Symposium on Energy Engineering Sciences, Argonne, IL (May 21–22, 2001).

64. I.T. Lima, Jr., G. Biondini, W.L. Kath, B. Marks, and C.R. Menyuk, “Optimization of a PMD Compensator With Constant Differential Group Delay Using Importance Sampling,” Conference on Lasers and Electro-Optics, Baltimore, MD (May 6–11, 2001), paper CFE3.

63. C.R. Menyuk and R. M. Mu, “Dispersion-Managed Solitons and Chirped-RZ: What is the Difference?” The Second IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (April 9–12, 2001).

62. C.R. Menyuk, “Advances in Modeling Optical Fiber Transmission Systems,” The Second IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (April 9–12, 2001).

61. C.R. Menyuk, “Modelling Polarization Mode Dispersion and Other Polarization Effects,” Optoelectronics and Communications Conference, Makuhari Messe, Chiba, Japan (July 10–14, 2000), paper 13A3-1.

60. C.R. Menyuk and R.-M. Mu, “Dispersion-Managed Solitons & Chirped-RZ: What is the Difference?” Optoelectronics and Communications Conference, Makuhari Messe, Chiba, Japan (July 10–14, 2000), paper WS1-8.

59. C.R. Menyuk, “New Approaches in Modeling Optical Fiber Transmission Systems,” Progress in Electromagnetics Research Symposium, Cambridge, MA (July 5–14, 2000), session 3A5.

58. C.R. Menyuk and D. Wang, “Polarization Mode Dispersion in Optical Communication Systems,” Conference on Lasers and Electro-Optics, San Francisco, CA (May 7–12, 2000), paper CML1 (tutorial).

57. C.R. Menyuk and D. Wang, “Polarization Mode Dispersion in Optical Communication Systems,” Optical Fiber Communication Conference, Baltimore, MD (March 5–10, 2000), paper WC1 (tutorial).

56. C.R. Menyuk and D. Wang, “A Model for Channel Fading in Undersea Systems Due to Polarisation Effects,” European Conference on Optical Communications, Nice, France (Sept. 26–30, 1999), presented in Workshop on Submarine Communications.

55. C.R. Menyuk, R.-M. Mu, D. Wang, T. Yu, and V.S. Grigoryan, “New Approaches to Modeling Optical Fiber Transmission Systems,” 1999 AFOSR Workshop on Nonlinear Optics, Tucson, AZ (Sept. 16–18, 1999).

54. C.R. Menyuk, R.-M. Mu, D. Wang, T. Yu, and V.S. Grigoryan, “New Approaches to Modeling Optical Fiber Transmission Systems,” IMA Workshop: Analysis and Modeling of Optical Devices, Minneapolis, MN (Sept. 9–10, 1999).

53. C.R. Menyuk, “New Approaches to Modeling High Data Rate Optical Fiber Transmission,” Integrated Photonics Research Topical Meeting, Santa Barbara, CA (July 19–21, 1999), paper RTuJ1.

52. V.S. Grigoryan, R.-M. Mu, D. Wang, T. Yu, and C.R. Menyuk, “New Approaches to Modeling Optical Fiber Transmission Systems,” The 1999 IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory, Athens, GA (April 12–16, 1999).

51. C.R. Menyuk, “Dispersion-Managed Solitons: A New Approach For High Data Rate Optical Fiber Transmission,” Photonics ’98 International Conference, New Delhi, India (Dec. 14–18, 1998).

50. C.R. Menyuk, T. Yu, R.-M. Mu, and D. Wang, “New Approaches to Modeling High Data Rate Optical Fiber Transmission Systems,” Optoelectronics Industry Development Association 1998 Annual Membership Forum, Washington, DC (Oct. 1–2, 1998).

49. V.S. Grigoryan and C.R. Menyuk, “Timing and Amplitude Jitter in Dispersion-Managed Soliton Communications,” 1998 AFOSR Workshop on Nonlinear Optics, Tucson, AZ (Sept. 24–26, 1998).

48. C.R. Menyuk, “Dispersion-Managed Solitons: A New Approach For High-Data-Rate Optical Fiber Communications,” International Conference on Applications of Photonic Technology, Ottawa, Ontario, Canada (July 27–30, 1998), paper T37.

47. C.R. Menyuk and G.M. Carter, “Dispersion-Managed Solitons: A New Paradigm For High-Data-Rate Communications,” Sixteenth Symposium on Energy Engineering Sciences, Argonne, IL (May 13–15, 1998).

46. C.R. Menyuk, “Modeling Nonlinear Lightwave Systems,” Optical Fiber Communication Conference, San Jose, CA (Feb. 22–27, 1998), paper ThW (tutorial).

45. J.M. Jacob, G.M. Carter, and C.R. Menyuk, “Circulating Loop Experiments on Solitons with Periodic Dispersion Management,” 1997 International Symposium on New Trends in Optical Soliton Transmission Systems, Kyoto, Japan (Nov. 18–21, 1997).

44. P.K.A. Wai, D. Marcuse, C.R. Menyuk, and W.L. Kath, “Studies on Signal Propagation in Optical Fibers With Randomly Varying Birefringence,” 1997 International Symposium on New Trends in Optical Soliton Transmission Systems, Kyoto, Japan (Nov. 18–21, 1997).

43. V.S. Grigoryan, C.R. Menyuk, and R.-M. Mu, “Pulse Jitter in Fiber Communications,” 1997 AFOSR Workshop on Nonlinear Optics, Tucson, AZ (Sept. 24–26, 1997).

42. C.R. Menyuk, “New Approaches For High-Data-Rate Optical Fiber Transmission: 100 Gbits/sec and Beyond,” Advanced Concepts in High Speed Optical Communication Workshop, Rochester, NY (May 25–27, 1997).

41. C.R. Menyuk, “Impairments Due to Nonlinearity and Birefringence in Optical Transmission Systems,” Optical Fiber Communication Conference, Dallas, TX (Feb. 16–21, 1997), paper WC3.

40. C.R. Menyuk and E.A. Golovchenko, “RZ Pulses in Dispersion-Managed Transmission Schemes,” Air Force Office of Scientific Research Nonlinear Optics Workshop, Tucson, AZ (Oct. 10–12, 1996).

39. L. Torner, W.E. Torruellas, G.I. Stegeman, C.R. Menyuk, and E.M. Wright, “Trapping of Light Beams and Formation of Spatial Solitary Waves in Quadratic Nonlinear Media,” Quantum Electronics and Laser Science Conference, Anaheim, CA (June 2–7, 1996), paper QThE1.

38. C.R. Menyuk, P.K.A. Wai, and D. Marcuse, “Physical Models of Polarization Mode Dispersion,” Technion Workshop on Mathematical Problems of Superfluity and Nonlinear Optics, Haifa, Israel (May 27–June 3, 1996).

37. E.A. Golovchenko, J.M. Jacob, G.M. Carter, A.N. Pilipetskii, and C.R. Menyuk, “RZ Pulses in Dispersion-Managed Fiber Transmission Schemes,” The University of Notre Dame Symposium on Current and Future Directions in Applied Mathematics, South Bend, IN (April 18–21, 1996).

36. C.R. Menyuk, “Multiple Length Scales and Averaging in Modelling of Long-Distance Optical Fiber Transmission,” Integrated Photonics Research Topical Meeting, Boston, MA (April 29–May 2, 1996), paper IThA5.

35. P.K.A. Wai and C.R. Menyuk, “Physical Models of Polarization Mode Dispersion,” International Symposium on Physics and Applications of Optical Solitons, Kyoto, Japan (Nov. 14–17, 1995).

34. C.R. Menyuk and A.N. Pilipetskii, “Effect of Mutual Interactions on the Bit-Error Rate in Soliton Communication Systems,” International Symposium on Physics and Applications of Optical Solitons, Kyoto, Japan (Nov. 14–17, 1995).

33. C.R. Menyuk and P.K.A. Wai, “Physical Models of Polarization Mode Dispersion,” Gordon Conference on Nonlinear Optics, Tilton, NH (July 30–Aug. 4, 1995).

32. W.E. Torruellas, Z. Wang, D.J. Hagan, E.W. VanStryland, G.I. Stegeman, L. Torner, and C.R. Menyuk, “2D Solitary Waves in a Quadratic Medium,” Quantum Electronics and Laser Science Conference, Baltimore, MD (May 22–26, 1995), paper QTuH1.

31. C.R. Menyuk and P.K.A. Wai, “Physical Models of Polarization Mode Dispersion,” Thirteenth Symposium on Energy Engineering Sciences, Argonne, IL (May 15–17, 1995).

30. C.R. Menyuk and P.K.A. Wai, “Physical Models of Polarization Mode Dispersion,” Australian CRC Photonics Summer School, Melbourne, Victoria, Australia (Dec. 7–12, 1994).

29. C.R. Menyuk, “Solitons in Optical Fibers With Randomly Varying Birefringence,” 19th Australian Conference on Optical Fibre Technology (ACOFT ’94), Melbourne, Victoria, Australia (Dec. 4–7, 1994).

28. P.K.A. Wai and C.R. Menyuk, “Physical Models of Polarization Mode Dispersion,” IMA Workshop on Waves in Random and Other Complex Media, Minneapolis, MN (Nov. 14–18, 1994).

27. C.R. Menyuk, “Soliton Robustness and Hamiltonian Perturbations,” Air Force Office of Scientific Research Nonlinear Optics Workshop, Tucson, AZ (Oct. 9–11, 1994).

26. C.R. Menyuk and P.K.A. Wai, “Physical Models of Polarization Mode Dispersion,” Air Force Office of Scientific Research Nonlinear Optics Workshop, Tucson, AZ (Oct. 9–11, 1994).

25. C.R. Menyuk, “Effet de Biréfringence Aléatoire sur la Propagation des Solitons en Fibre Optique,” 62e Congrès de l’Association Canadienne Française pour l’Avancement de Science, Montreal, Canada (May 16–20, 1994).

24. C.R. Menyuk and P.K.A. Wai, “Solitons in Optical Fibers With Randomly Varying Birefringence,” 1993 International Symposium on Nonlinear Theory and Its Applications, Honolulu, HI (Dec. 5–10, 1993), paper 7.8-3.

23. P.K.A. Wai and C.R. Menyuk, “Light Propagation in Optical Fibers With Randomly Varying Birefringence,” 2nd IMACS Conference on Computational Physics, St. Louis, MO (Oct. 6–9, 1993).

22. C.R. Menyuk, C.-J. Chen, and P.K.A. Wai, “Passive Modelocking in Fiber Lasers,” Nonlinear Guided Wave Phenomena Topical Meeting, Cambridge, England (Sept. 20–22, 1993), paper WA1-1.

21. C.R. Menyuk, “Solitons in Birefringent Optical Fibers,” Air Force Office of Scientific Research Nonlinear Optics Workshop, Tucson, AZ (Sept. 9–11, 1993).

20. C.R. Menyuk, “Solitons in Birefringent Optical Fibers,” Integrated Photonics Research Topical Meeting, Palm Springs, CA (March 22–24, 1993), paper ITuF1.

19. C.R. Menyuk, “Inverse Scattering and Stimulated Raman Scattering: Numerics,” Workshop on Self-Similarity in Stimulated Raman Scattering, Montreal, Canada (March 12–13, 1993).

18. C.R. Menyuk, “Self-Similarity in Stimulated Raman Scattering: An Overview,” Workshop on Self-Similarity in Stimulated Raman Scattering, Montreal, Canada (March 12–13, 1993).

17. C.R. Menyuk, “Soliton Robustness and Hamiltonian Deformations in Optical Fibers,” SIAM Conference on Applications of Dynamical Systems, Snowbird, UT (Oct. 15–19, 1992).

16. C.R. Menyuk, “Simulations of Solitons in Birefringent Optical Fibers,” IMACS-PDE7 Conference, New Brunswick, NJ (June 21–24, 1992).

15. C.R. Menyuk, “Soliton Propagation in an Optical Fiber With Randomly Varying Birefringence,” Tenth Symposium on Energy Engineering Science, Argonne, IL (May 11–13, 1992).

14. C.R. Menyuk, “Effect of Optical Fiber Birefringence on Long-Distance Soliton Transmission,” Optical Society of America Annual Meeting, San Jose, CA (Nov. 3–8, 1991), paper TuA3.

13. C.R. Menyuk, “Mathematical Theory of Stimulated Raman Interaction in the Transient Limit,” Workshop on Nearly Integrable Wave Phenomena in Nonlinear Optics, University of Ohio, Columbus, OH (Dec. 2–5, 1990).

12. C.R. Menyuk, “Theory of Stimulated Raman Interactions in the Transient Limit,” NATO Advanced Research Workshop: Painlevé Transcendents, Their Asymptotics, and Physical Applications, Ste-Adèle, Canada (Sept. 3–7, 1990).

11. “Optical Fiber Kerr Switches: Numerical Studies,” 14th European Workshop on Optical Waveguide Theory, Aspenäs, Sweden (September 14–16, 1989).

10. “Hamiltonian Deformations and Optical Fibers,” Annual Seminar of the Canadian Mathematical Society, Montreal, Canada (August 1–11, 1989).

9. “Solitons in Optical Fibers,” 9th Int. School on Coherent Optics, Uzhgorod, Ukraine, USSR (May 15–20, 1989).

8. “Optical Fiber Kerr Switches: A New Twist,” 13th European Workshop on Optical Waveguide Theory, Arundel, England (September 9–11, 1988).

7. “Hamiltonian Deformations and Optical Fibers,” Int. Conf. on Integrable Systems and Applications, Ile d’Oléron, France (June 20–24, 1988).

6. “Stochastic Electron Acceleration in Obliquely Propagating Electromagnetic Waves,” International Union of Radio Science Meeting, Boulder, CO (Jan. 12–15, 1987) Paper H-2.

5. “Quadrupole Free Electron Laser,” (with B. Levush and T.M. Antonsen, Jr.) 11th Int. Conf. on Infrared and Millimeter Waves, Pisa, Italy (October 1986).

4. “Stochastic Motion in Two Electromagnetic Waves,” (with K. Hizanidis) Int. Conf. Nonlinear Dynamics and Chaos in Classical and Quantum Systems, Thessaloniki, Greece (August 1986).

3. “Discrete Hamiltonian Particle Simulation,” (with V.K. Decyk) U.S.-Japan Workshop on Advanced Computer Simulation of Plasmas, University of Nagoya, Nagoya, Japan (November 1985).

2. “Lie Perturbation Theory for an Infinite-Dimensional Hamiltonian System,” 13th International Colloquium on Group Theoretical Methods in Physics, College Park, MD (May 1983).

1. “Long-time Behaviour of an Obliquely Propagating Langmuir Wave,” Workshop on Long-time Prediction in Non-Linear Conservative Dynamical Systems, Austin, TX (March, 1981).

Computational Photonics Laboratory

Computational Photonics Laboratory

Invited Papers

Computational Photonics Laboratory

Subscribe to UMBC Weekly Top Stories

I am interested in: