Total citations: 2000+, h-index: 25, i-10 index: 36 (Google Scholar)

(†) Invited

2018.

  1. B. Yao, S.-W. Huang*, Y. Liu, et al., “Gate-tunable frequency combs in graphene-nitride microresonators”, Nature accepted (2018). *equal contribution and corresponding author

2017.

  1. B. Yao, Y. Liu, S.-W. Huang, et al., “Broadband gate-tunable THz plasmons in graphene heterostructures”, Nat. Photon. 12, 22 (2017)

  2. S.-W. Huang, J. Yang, S.-H. Yang, et al., “Globally stable microresonator Turing pattern formation for coherent high-power THz radiation on-chip”, Phys. Rev. X 7, 041002 (2017).

  3. B. Li, S.-W. Huang*, Y. Li, et al., “Panoramic-reconstruction temporal imaging for seamless measurements of slowly-evolved femtosecond pulse dynamics”, Nature Commun. 8, 61 (2017). *equal contribution and corresponding author

  4. H. Zhou, S.-W. Huang*, X. Li, et al., “Real-time dynamics and cross-correlation gating spectroscopy of free-carrier Drude slow-light solitons”, Light Sci. Appl. 6, e17008 (2017). *equal contribution.

  5. J. Wu, S.-W. Huang*, Y. Huang, et al., “Mesoscopic chaos mediated by Drude electron-hole plasma in silicon optomechanical oscillators”, Nature Commun. 8, 15570 (2017). *equal contribution

  6. S.-W. Huang, A. K. Vinod, J. Yang, et al., “Quasi-phase-matched multispectral Kerr frequency comb”, Opt. Lett. 42, 2110 (2017).

  7. B. Yao, C. Yu, Y. Wu, S.-W. Huang, et al., “Graphene-enhanced Brillouin optomechanical microresonator for ultrasensitive gas detection”, Nano Lett. 17, 4996 (2017).

  8. B. C. Yao, Y. J. Rao, S.-W. Huang, et al., “Graphene Q-switched distributed feedback fiber lasers with narrow linewidth approaching the transform limit”, Opt. Express 25, 8202 (2017).

  9. J. Lim, A. A. Savchenkov, A. B. Matsko, S.-W. Huang, et al., “Microresonator-stabilized extended cavity diode laser for supercavity frequency stabilization”, Opt. Lett. 42, 1249 (2017).

2016.

  1. A. B. Matsko, A. A. Savchenkov, S.-W. Huang, et al., “Clustered frequency comb”, Opt. Lett. 41, 5102 (2016).

  2. H. Zhou, M. L. Liao, S.-W. Huang, et al., “Six-wave mixing induced by free-carrier plasma in silicon nanowire waveguides”, Laser Photon. Rev. 10, 1054 (2016).

  3. S.-W. Huang, J. Yang, M. Yu, et al., “A broadband chip-scale optical frequency synthesizer at 2.7×10-16 relative uncertainty”, Science Adv. 2, e1501489 (2016).

  4. J. Lim, S.-W. Huang, A. Kumar, et al., “Stabilized chip-scale Kerr frequency comb via a high-Q reference photonic microresonator”, Opt. Lett. 41, 3706 (2016).

  5. S.-W. Huang, H. Liu, J. Yang, et al., “Smooth and flat phase-locked Kerr frequency comb generation by higher order mode suppression”, Sci. Rep. 6, 26255 (2016).  

2015.

  1. H. Zhou, S.-W. Huang, Y. Dong, et al., “Stability and intrinsic fluctuations of dissipative cavity solitons in Kerr frequency microcombs”, IEEE Photonics Journal 7, 3200113 (2015).

  2. S.-W. Huang, J. Yang, J. Lim, et al., “A low-phase-noise 18 GHz Kerr frequency microcomb phase-locked over 65 THz”, Sci. Rep. 5, 13355 (2015).

  3. S.-W. Huang, H. Zhou, J. Yang, et al., “Mode-locked ultrashort pulse generation from on-chip normal dispersion microresonators”, Phys. Rev. Lett. 114, 053901 (2015).

  4. (†) C. Manzoni, O. D. Mücke, G. Cirmi, S. Fang, J. Moses, S.-W. Huang, et al., “Coherent pulse synthesis: towards sub-cycle optical waveforms”, Laser Photon. Rev. 9, 129 (2015).

  5. (†) W. R. Huang, S.-W. Huang, E. Granados, et al., “Highly efficient terahertz pulse generation by optical rectification in cryogenically cooled lithium niobate”, J. Mod. Opt. 62, 1486 (2015, special issue on Physics with Strong THz Fields).

2014.

  1. X. Luan, Y. Huang, Y. Li, J. F. McMillan, J. Zheng, S.-W. Huang, et al., “An integrated low phase noise radiation-pressure-driven optomechanical oscillator chipset”, Sci. Rep. 4, 6842 (2014).

2013.

  1. H. Suchowski, P. R. Krogen, S.-W. Huang, et al., “Octave-spanning coherent mid-IR generation via adiabatic difference frequency conversion”, Opt. Express. 21, 28892 (2013, special issue on Nonlinear Optics).

  2. C.-J. Lai, G. Cirmi, K.-H. Hong, J. Moses, S.-W. Huang, et al., “Wavelength Scaling of High Harmonic Generation Close to the Multiphoton Ionization Regime”, Phys. Rev. Lett. 111, 073901 (2013).

  3. S.-W. Huang, E. Granados, W.R. Huang, et al., “High conversion efficiency, high energy THz pulses by optical rectification in cryogenically cooled lithium niobate”, Opt. Lett. 38, 796 (2013).

2012.

  1. H.-W Chen, J.K. Lim, S.-W. Huang, et al., “Optimization of femtosecond Yb-doped fiber amplifiers for high-quality pulse compression”, Opt. Express 20, 28672 (2012).

  2. K.-H. Hong, C.-J. Lai, V.-M. Gkortsas, S.-W. Huang, et al., “High-order harmonic generation in Xe, Kr, and Ar driven by a 2.1-μm source: high-order harmonic spectroscopy under macroscopic effects”, Phys. Rev. A, 86, 043412 (2012).

  3. G. Cirmi, C.-J. Lai, E. Granados, S.-W. Huang, et al., “Cut-off scaling of high-harmonic generation driven by a femtosecond visible optical parametric amplifier”, J. Phys. B: At. Mol. Opt. Phys. 45, 205601 (2012).

  4. S.-W. Huang, J. Moses, and F.X. Kärtner, “Broadband non-collinear optical parametric amplification without angularly dispersed idler”, Opt. Lett. 37, 2796 (2012).

  5. C. Manzoni, S.-W. Huang, G. Cirmi, et al., “Coherent synthesis of ultra-broadband optical parametric amplifiers”, Opt. Lett., 37, 1880 (2012).

  6. (†) Y. Chen, S.-W. Huang*, C. Zhou, et al., “Improved Detection Sensitivity of Line- Scanning Optical Coherence Microscopy”, IEEE J. Sel. Top. Quant. Electron., 18, 1094 (2012). *equal contribution

  7. (†) S.-W. Huang, G. Cirmi, J. Moses, et al., “Optical waveform synthesizer and its application to high-harmonic generation”, J. Phys. B: At. Mol. Opt. Phys. 45, 074009 (2012).

2011.

  1. K.-H. Hong, S.-W. Huang, J. Moses, et al., “High-energy, phase-stable, ultrabroadband kHz OPCPA at 2.1 μm pumped by a picosecond cryogenic Yb:YAG laser”, Opt. Express 19, 15538 (2011).

  2. S.-W. Huang, G. Cirmi, J. Moses, et al., “High-energy pulse synthesis with sub-cycle waveform control for strong-field physics”, Nature Photon. 5, 475 (2011).

  3. J. Moses, and S.-W. Huang, “Conformal profile theory for performance scaling of ultrabroadband optical parametric chirped pulse amplification”, J. Opt. Soc. Am. B 28, 812 (2011).

2010.

  1. K.-H. Hong, J. T. Gopinath, D. Rand, A. M. Siddiqui, S.-W. Huang, et. al., “High-energy, kHz-repetition-rate, ps cryogenic Yb:YAG chirped-pulse amplifier”, Opt. Lett. 35, 1752 (2010).

  2. E. L. Falcao-Filho, C.-J. Lai, K.-H. Hong, V. M. Gkortsas, S.-W. Huang, et. al., “Scaling of high-order harmonic efficiencies with visible wavelength drivers: A route to efficient extreme ultraviolet sources”, Appl. Phys. Lett. 97, 061107 (2010).

  3. A. D. Aguirre, J. Sawinski, S.-W. Huang, et. al., ”High speed optical coherence microscopy with autofocus adjustment and a miniaturized endoscopic imaging probe”, Opt. Express 18, 4222 (2010).

2009.

  1. J. Moses, C. Manzoni, S.-W. Huang, et. al., ”Temporal optimization of ultrabroadband high-energy OPCPA”, Opt. Express 17, 5540 (2009).

  2. J. Moses, S.-W. Huang, K.-H. Hong, et. al., “Highly stable ultrabroadband mid-IR optical parametric chirped-pulse amplifier optimized for superfluorescence suppression”, Opt. Lett. 34, 1639 (2009 ).

2008.

  1. D. C. Adler, S.-W. Huang, R. Huber, et. al., ”Photothermal detection of gold nanoparticles using phase-sensitive optical coherence tomography”, Opt. Express 16, 4376 (2008).

  2. P. M. Andrews, Y. Chen, S.-W. Huang, et. al., ”High-resolution optical coherence tomography imaging of the living kidney”, Lab. Invest. 88, 441 (2008).

  3. Y. Chen, A. D. Aguirre, P.-L. Hsiung, S.-W. Huang, et. al., “Effects of axial resolution improvement on optical coherence tomography (OCT) imaging of gastrointestinal tissues”, Opt. Express 16, 2469 (2008).

  4. W.-J. Chen, Z.-M. Hsieh, S.-W. Huang, et. al., “Sub-single-cycle optical pulse train with constant carrier envelope phase”, Phys. Rev. Lett. 100, 163906 (2008).

2007.

  1. S.-W. Huang, A. D. Aguirre, R. A. Huber, et. al., “Swept source optical coherence microscopy using a Fourier domain mode-locked laser”, Opt. Express 15, 6210 (2007).

  2. Y. Chen, S.-W. Huang, A. D. Aguirre, et. al., “High-resolution line-scanning optical coherence microscopy”, Opt. Lett. 32, 1971 (2007).

  3. Y. Chen, A. D. Aguirre, P.-L. Hsiung, et. al., ”Ultrahigh resolution optical coherence tomography of Barrett's esophagus: preliminary descriptive clinical study correlating images with histology”, Endoscopy 39, 599 (2007).

  4. H. Mashimo, Y. Chen, S.-W. Huang, et. al., “Endoscopic optical coherence tomography reveals Barrett's underneath squarnous neo-epithelium after radiofrequency ablation”, Gastroenterology 132, A96 (2007).

2006.

  1. S.-W. Huang, W.-J. Chen, and A.-H. Kung, “Vibrational molecular modulation in hydrogen”, Phys. Rev. A 74, 063825 (2006).

2004.

  1. S.-W. Huang, H.-Y. Mong, and C.-H. Lee, “Super-resolution bright-field nanometer topographic optical microscopy based on contrast”, Micros. Res. Tech. 65, 180 (2004).