Journal Publications

  1. Y. Dai*, A. Ghosh, S. Yang, Z. Zhou, C.-B. Huang, and H. Petek*, “Poincaré engineering of surface plasmon polaritons,” Nat. Rev. Phys. 4, 562-564 (2022).
  2. P.-Y. Wu, Y.-C. Chang, and C.-B. Huang*, “Broadband plasmonic half-subtractor and digital demultiplexer in pure parallel connections,” Nanophotonics 11, 3623-3629 (2022).
  3. Y. Dai*, Z. Zhou, A. Ghosh, K. Kapoor, M. Dąbrowski, A. Kubo, C.-B. Huang, and H. Petek*, “Ultrafast microscopy of a twisted plasmonic spin skyrmion,” Appl. Phys. Rev. 9, 011420 (2022).
  4. A. Ghosh, S. Yang, Y. Dai*, Z. Zhou, T. Wang,  C.-B. Huang*, and H. Petek*, “A topological lattice of plasmonic merons,” Appl. Phys. Rev. 8, 041413 (2021).
  5. Y. Dai*, Z. Zhou, A. Ghosh, S. Yang, C.-B. Huang, and H. Petek*, “Ultrafast nanofemto photoemission electron microscopy of vectorial plasmonic fields,” MRS Bulletin 46, 738-746 (2021).
  6. Y. Dai*, Z. Zhou, A. Ghosh, R. S. K. Mong, A. Kubo, C.-B. Huang, and H. Petek*, “Plasmonic topological quasiparticle on the nanometre and femtosecond scales,” Nature 588, 616-619 (2020).
  7. T.-Y. Chen, D. Tyagi, Y.-C. Chang, and C.-B. Huang*, “A polarization-actuated plasmonic circulator,” Nano Lett. 20(10), 7543-7549 (2020).
  8. D. Tyagi, T.-Y. Chen, and C.-B. Huang*, “Polarization-enabled steering of surface plasmons using crossed reciprocal nanoantennas,” Laser Photonics Rev. 14(8), 2000076 (2020).
  9. T.-Y. Chen, J. Obermeier, T. Schumacher, F.-C. Lin, J.-S. Huang, M. Lippitz*, and C.-B. Huang*, “Modal symmetry controlled second-harmonic generation by propagating plasmons,” Nano Lett. 19(9), 6424-6428 (2019).
  10. J. Hu, S. J. Fabbri, C.-B. Huang, and C.-S. Brés*, “Investigation of temporal Talbot operation in a conventional optical tapped delay line structure,” Opt. Express 27(6) 7922-7934 (2019).
  11. J. Hu, C.-S. Brés*, and C.-B. Huang*, “Talbot effect on orbital angular momentum beams: azimuthal intensity repetition-rate multiplication,” Opt. Lett. 43(16) 4033-4036 (2018).
  12. Y.-S. Lin and C.-B. Huang*, “Large-scale and structure-tunable laser spectral compression in an optical dispersion-increasing fiber,” Opt. Express 25(15), 18024-18030 (2017).
  13. J.-M. Wun, H.-Y. Liu, Y.-L. Zeng, S.-D. Yang, C.-L. Pan, C.-B. Huang*, and J.-W. Shi*, “Photonic high-power CW THz-wave generation by using flip-chip packaged uni-traveling carrier photodiode and femtosecond optical pulse generator,” J. Lightwave Technol. 34(4), 1387-1397 (2016).
  14. C.-F. Chen, C.-T. Ku, Y.-H. Tai, P.-K. Wei, H.-N. Lin, and C.-B. Huang*, “Creating optical near-field orbital angular momentum in a gold metasurface,” Nano Lett. 15(4), 2746-2750 (2015).
  15. C.-T. Ku, H.-N. Lin, and C.-B. Huang*, “Direct observation of surface plasmon vortex and subwavelength focusing with arbitrarily-tailored intensity patterns,” Appl. Phys. Lett. 106(5), 053112 (2015).
  16. J.-M. Wun, H.-Y. Liu, C.-H. Lai, Y.-S. Chen, S.-D. Yang, C.-L. Pan, J. E. Bowers, C.-B. Huang*, and J.-W. Shi*, “Photonic high-power 160-GHz signal generation by using ultrafast photodiode and a high-repetition-rate femtosecond optical pulse train generator,” IEEE J. Sel. Top. Quantum Electron. 20(6), 3803507 (2014).
  17. W.-H. Dai, F.-C. Lin, C.-B. Huang, and J.-S. Huang*, “Mode conversion in high-definition plasmonic optical nanocircuits,” Nano Lett. 14(7), 3881-3886 (2014).
  18. C.-C. Chen, C.-B. Huang, and S.-D. Yang*, “Self-referenced frequency comb measurement by using a polarization line-by-line pulse shaper,” Opt. Lett. 39(7), 1901-1904 (2014).
  19. W.-T. Chao, Y.-Y. Lin, J.-L. Peng, and C.-B. Huang*, “Adiabatic pulse propagation in a dispersion-increasing fiber for spectral compression exceeding the fiber dispersion ratio limitation,” Opt. Lett. 39(4), 853-856 (2014).
  20. W.-Y. Tsai, J.-S. Huang, and C.-B. Huang*, “Selective trapping or rotation of isotropic dielectric micro-particles by optical near field in a plasmonic Archimedes spiral,” Nano Lett. 14(2), 547-552 (2014).
  21. P. Geisler, G. Razinskas, E. Krauss, X.-F. Wu, C. Rewitz, P. Tuchscherer, S. Goetz, C.-B. Huang, T. Brixner*, and B. Hecht*, “Multimode plasmon excitation and in situ analysis in top-down fabricated nanocircuits,” Phys. Rev. Lett. 111(18), 183901 (2013).
  22. C.-C. Chen, Y.-S. Chen, C.-B. Huang, M.-C. Chen, and S.-D. Yang*, “Non-iterative data inversion of phase retrieval by omega oscillating filtering for optical arbitrary waveform measurement,” Opt. Lett. 38(12), 2011-2013 (2013).
  23. C.-D. Ku, W.-L. Huang, J.-S. Huang, and C.-B. Huang*, “Deterministic synthesis of optical vortices in a tailored plasmonic Archimedes spiral,” IEEE Photon. J. 5(3), 4800409 (2013).
  24. C.-C. Chen, I.-C. Hsieh, S.-D. Yang, and C.-B. Huang*, “Polarization line-by-line pulse shaping for the implementation of vectorial temporal Talbot effect,” Opt. Express 20(24), 27062-27070 (2012).
  25. C.-W. Chow*, L.-G. Yang, C.-H. Yeh, C.-B. Huang, J.-W. Shi, and C.-L. Pan, “10 Gb/s optical carrier distributed network with W-band (0.1THz) short-reach wireless communication system,” Opt. Comm. 285(21-22), 4307-4311 (2012).
  26. Y.-T. Hung, C.-B. Huang, and J.-S. Huang*, “Plasmonic mode converter for controlling optical impedance and nanoscale light-matter interaction,” Opt. Express 20(18), 20342-20355 (2012). (Selected by Virtual Journal for Biomedical Optics, 7(10), 2012.)
  27. J.-W. Lin, C.-L. Lu, H.-P. Chuang, F.-M. Kuo, J.-W. Shi, C.-B. Huang, and C.-L. Pan*, “Photonic generation and detection of W-band chirped millimeter-wave pulses for radar,” IEEE Photon. Technol. Lett. 24(16), 1437-1439 (2012).
  28. J.-W. Shi*, J.-W. Lin, C.-B. Huang, F.-M. Kuo, N.-W. Chen, C.-L. Pan, and J. E. Bowers, “Photonic generation of few-cycle millimeter-wave pulse using a waveguide-based photonic-transmitter-mixer,” IEEE Photon. J. 4(4), 1071-1079 (2012).
  29. J.-W. Shi*, F.-M. Kuo, N.-W. Chen, S.-Y. Set, C.-B. Huang, and J. E. Bowers, “Photonic generation and wireless transmission of linearly/nonlinearly continuously tunable chirped millimeter-wave waveforms with high time-bandwidth product at W-band,” IEEE Photon. J. 4(1), 215-223 (2012).
  30. N.-K. Chen*, F.-Z. Liu, H.-P. Chuang, Y. Lai, S.-D. Yang, J.-W. Lin, S.-K. Liaw, Y.-C. Chang, C.-B. Huang, and S. Chi, “Highly efficient femtosecond pulse stretching by tailoring cavity dispersion in erbium fiber lasers with an intracavity short-pass edge filter,” Opt. Express 19(17), 15879-15884 (2011).
  31. H.-P. Chuang and C.-B. Huang*, “Wavelength-tunable spectral compression in a dispersion-increasing fiber,” Opt. Lett. 36(15), 2848-2850 (2011).
  32. C.-S. Hsu, H.-C. Chiang, H.-P. Chuang, C.-B. Huang, and S.-D. Yang*, “Forty-photon-per-pulse spectral phase retrieval by shaper-assisted modified interferometric field autocorrelation,” Opt. Lett. 36(14), 2611-2613 (2011).
  33. J.-W. Lin, H.-P. Chuang, F.-M. Kuo, C.-H. Lin, T.-A. Liu, J.-W. Shi, C.-B. Huang, and C.-L. Pan*, “Enhanced performance of narrow-band millimeter-wave generation using shaped-pulse-excited photonic transmitters,” IEEE Photon. Technol. Lett. 23(13), 902-904 (2011).
  34. P.-N. Li, H.-H. Tsao, J.-S. Huang, and C.-B. Huang*, “Subwavelength localization of near fields in coupled metallic spheres for single-emitter polarization analysis,” Opt. Lett. 36(12), 2339-2341 (2011).
  35. J.-W. Shi, C.-B. Huang, and C.-L. Pan*, “Millimeter-wave photonic wireless links for very-high data rate communication,” [Invited Review], NPG Asia Materials 3(2), 41-48 (2011).
  36. F.-M. Kuo, C.-B. Huang, J.-W. Shi*, N.-W. Chen, H.-P. Chuang, J. E. Bowers, and C.-L. Pan, “Remotely up-converted 20 Gbit/s error-free wireless on-off-keying data transmission at W-band using an ultra-wideband photonic transmitter-mixer,” IEEE Photon. J. 3(2), 209-219 (2011).
  37. H.-P. Chuang and C.-B. Huang*, “Generation and delivery of 1-ps optical pulses with ultrahigh-rates over 25 km single mode fiber by a spectral line-by-line pulse shaper,” Opt. Express 18(23), 24003-24011 (2010).
  38. F.-M. Kuo, J.-W. Shi, H.-C. Chiang, H.-P. Chuang, H.-K. Chiou, C.-L. Pan, N.-W. Chen, H.-J. Tsai, and C.-B. Huang*, “Spectral power enhancement in a 100-GHz photonic millimeter-wave generator enabled by spectral line-by-line pulse shaping,” IEEE Photon. J. 2(5), 719-727 (2010).
  39. C.-B. Huang* and A. M. Weiner, “Analysis of time-multiplexed optical line-by-line pulse shaping: application for radio-frequency and microwave photonics,” Opt. Express 18(9), 9366-9377 (2010).
  40. F. Ferdous*, D. E. Leaird, C.-B. Huang, and A. M. Weiner, “Dual comb cross-correlation technique for optical arbitrary waveform characterization,” Opt. Lett. 34(24), 3875-3877 (2009).
  41. C.-B. Huang*, D. E. Leaird, and A. M. Weiner, “Synthesis of millimeter-wave power spectra using time-multiplexed optical pulse shaping,” IEEE Photon. Technol. Lett. 21(18), 1287-1289 (2009).
  42. C.-B. Huang*, Z. Jiang, D. E. Leaird, and A. M. Weiner, “Quantitative study of optical frequency to intensity noise conversion in line-by-line pulse shaping,” IEEE J. Quantum Electron. 45(6), 661-673 (2009).
  43. S.-D. Yang*, C.-S. Hsu, S.-L. Lin, H. Miao, C.-B. Huang, and A. M. Weiner, “Direct spectral phase retrieval of ultrashort pulses by double modified one-dimensional autocorrelation traces,” Opt. Express 16(25), 20617-20625 (2008).
  44. C.-B. Huang*, Z. Jiang, D. E. Leaird, J. Caraquitena, and A. M. Weiner, “Spectral line-by-line shaping for optical and microwave arbitrary waveform generations,” [Invited Review], Laser & Photon. Rev. 2(4), 227-248 (2008).
  45. V. R. Supradeepa*, C.-B. Huang, D. E. Leaird, and A. M. Weiner, “Femtosecond pulse shaping in two dimensions: towards higher complexity optical waveforms,” Opt. Express 16(16), 11878-11887 (2008).
  46. C.-B. Huang*, S.-G. Park, D. E. Leaird, and A. M. Weiner, “Nonlinearly broadened phase-modulated continuous-wave laser frequency combs characterized using DPSK decoding,” Opt. Express 16(4), 2520-2527 (2008).
  47. Z. Jiang*, D. E. Leaird, C.-B. Huang, H. Miao, M. Kourogi, K. Imai, and A. M. Weiner, “Spectral line-by-line pulse shaping on an optical frequency comb generator,” IEEE J. Quantum Electron. 43(12), 1163-1174 (2007).
  48. C.-B. Huang*, D. E. Leaird, and A. M. Weiner, “Time-multiplexed photonically enabled radio-frequency arbitrary waveform generation with 100 ps transitions,” Opt. Lett. 32(22), 3242-3244 (2007). (Selected by Virtual Journal of Ultrafast Science, 7(1), 2008.)
  49. Z. Jiang, C.-B. Huang, D. E. Leaird, and A. M. Weiner*, “Spectral line-by-line pulse shaping for optical arbitrary pulse train generation,” J. Opt. Soc. Am. B 24(9), 2124-2128 (2007).
  50. Z. Jiang§, C.-B. Huang§, D. E. Leaird, and A. M. Weiner*, “Optical arbitrary waveform processing of more than 100 spectral comb lines,” Nature Photonics 1(8), 463-467 (2007). (§ These authors contributed equally to this work)
  51. C.-B. Huang*, Z. Jiang, D. E. Leaird, and A. M. Weiner, “The impact of optical comb stability on waveforms generated via spectral line-by-line pulse shaping,” Opt. Express 14(26), 13164-13176 (2006).
  52. C.-B. Huang*, Z. Jiang, D. E. Leaird, and A. M. Weiner, “High-rate femtosecond pulse generation via line-by-line processing of a phase-modulated CW laser frequency comb,” Electron. Lett. 42(9), 1114-1115 (2006).
  53. G. Wang*, G, Spalding, R. Huang, L, Luan and J. B. Ketterson, “Numerical analysis of waveguide-enhanced optical bistability,” Opt. Quantum Electron. 35(15), 1357-1366 (2003).
  54. C.-B. Huang and Y. Lai*, “Loss-less pulse intensity repetition-rate multiplication using optical all-pass filtering,” IEEE Photon. Technol. Lett. 12(2), 167-169 (2000).

Website Powered by

Up ↑

%d bloggers like this: