Skip to menu





  1. “Large on-chip Brillouin net amplification in silicon-based nano-photonics,” Hyeongpin Kim and Heedeuk Shin, AIP Advances 9, 125032 (2019) LINK
  2. "Tailorable and Broadband On-Chip Optical Power Splitter," Hyeongpin Kim and Heedeuk Shin, Applied Sciences 9, 4239 (2019) LINK
  3. "Fabrication method for ultra-long optical micro/nano-fibers," Donghwa Lee, Kwang Jo Lee, Jin-Hun Kim, Kyungdeuk Park, Dongjin Lee, Yoon-Ho Kim, and Heedeuk Shin, Current Applied Physics 19, 1334 (2019) LINK
  4. “One-step fabrication of bi- and quad-directional femtosecond laser-induced periodic surface structures on metal with a depolarizer,” Taek Yong Hwang, Heedeuk Shin, Jeongjin Kang, Byounghwak Lee, and Chunlei Guo, Applied Surface Science 493, 231 (2019) LINK
  5. "Photon-pair source working in a silicon-based detector wavelength range using tapered micro/nanofibers", J.-H. Kim, Y.-S. Ihn, Y.-H. Kim, H.-D. Shin, Opt. Lett. 44, 447 (2019) LINK



  1. "Observation of photon-pair generation in the normal group-velocity-dispersion regime with slight detuning from the pump wavelength," Kyungdeuk Park, Dongjin Lee, Yong Sup Ihn, Yoon-Ho Kim and Heedeuk Shin,  New J. Phys, 20, 103004 (2018) LINK



  1. "Extended phase-matching properties of periodically poled potassium niobate crystals for mid-infrared polarization-entangled photon-pair generation," Kwang Jo Lee, Sunmi Lee, and Heedeuk Shin,  Applied Optics 55, 9791 (2016) LINK
  2. "Large Brillouin amplification in silicon", E. A. Kittlaus, H. Shin and P. T. Rakich, Nat. Photonics (2016) LINK
  3. “Forward Brillouin Scattering in Hollow-core Photonic Bandgap Fibers,” , W. Renninnger, P. Kharel, R. O. Behunin, E Kittlaus, H. Shin, and P.T. Rakich New Journal of Physics (18):025008 (2016) PDF


  • Patent "GUIDED WAVE OPTO-ACOUSTIC DEVICE", Robert L. Jarecki, Jr., Peter Thomas Rakich, Ryan Camacho, Heedeuk Shin, Jonathan Albert Cox, Wenjun Qiu, and Zheng Wang, US 9,268,092 B1 LINK





  1. “Control of coherent information via on-chip photonic–phononic emitter–receivers” Heedeuk Shin, Jonathan A. Cox, Robert Jarecki, Andrew Starbuck, Zheng Wang & Peter T. Rakich, Nat. Commun. 6, 6427 (2015) LINK



  1. “Optomechanics: Photons that pivot and shuttle”, Heedeuk Shin & Peter T. Rakich, Nat. Nanotechnol. 9, 878-880 (2014) LINK



  1. “Stimulated Brillouin scattering in nanoscale silicon step-index waveguides: a general framework of selection rules and calculating SBS gain”, Wenjun Qiu, Peter T. Rakich, Heedeuk Shin, Hui Dong, Marin Soljačić, and Zheng Wang, Opt. Express, 21, 031402 (2013) PDF
  2. “Tailorable stimulated Brillouin scattering at nanoscale silicon waveguides”, Heedeuk Shin, Wenjun Qiu, Robert Jarecki, Jonathan A. Cox, Roy H. Olsson III, Andrew Starbuck, Zheng Wang & Peter T. Rakich, Nat. Commun. 4, 1944 (2013) LINK
  3. “Enhancing entangled-state phase estimation by mixing classical and quantum protocols”, Heedeuk Shin, Omar S. Magaña-Loaiza, Mehul Malik, Malcolm N. O’Sullivan, and Robert W. Boyd, Opt. Express, 21, 002816 (2013)PDF




  1. “Quantum Spatial Superresolution by Optical Centroid Measurements”, Heedeuk Shin, Kam Wai Clifford Chan, Hye Jeong Chang, and Robert W. Boyd, Phys. Rev. Lett. 107, 083603 (2011) PDF



  1. “Tunable Optical Time Delay of Quantum Signals Using a Prism Pair”, George M. Gehring, Heedeuk Shin, Robert W. Boyd, Chil-Min Kim, and Byoung S. Ham, Opt. Express 18, 019156 (2010) PDF
  2. “Quantum Ghost Image Identification with Correlated Photon Pairs”, Mehul Malik, Heedeuk Shin, Malcolm O’Sullivan, Petros Zerom, and Robert W. Boyd, Phys. Rev. Lett. 104, 163602, PDF





  1. “Observation of a Microscopic Cascaded Contribution to the Fifth-Order Nonlinear Susceptibility”, Ksenia Dolgaleva, Heedeuk Shin, and Robert W. Boyd, Phys. Rev. Lett. 103, 113902 (2009) PDF
  2. “Discriminating orthogonal single-photon images”, Curtis J. Broadbent, Petros Zerom, Heedeuk Shin, John C. Howell, and Robert W. Boyd, Phys. Rev. A 79, 033802 (2013). PDF




  1. “Large nonlinear optical response of polycrystalline Bi3.25La0.75Ti3O12 ferroelectric thin films on quartz substrates”, Heedeuk Shin, Hye Jeong Chang, Robert W. Boyd, M. R. Choi, and W. Jo, Opt. Lett. 32, 2453 (2007). PDF
  2. “Reducing pulse distortion in fast-light pulse propagation through an erbium-doped fiber amplifier”,  Heedeuk Shin, Aaron Schweinsberg, George Gehring, Katie Schwertz, Hye Jeong Chang, Robert W. Boyd, Q-Han Park and Daniel J. Gauthier, Opt. Lett. 32, 906 (2007) PDF




  1. “Implementation of sub-Rayleigh resolution lithography using an N-photon absorber”, Hye Jeong Chang, Heedeuk Shin, Malcolm N. O’Sullivan-Hale and Robert W. Boyd, J. Mod. Opt. 53, 2271 (2006). PDF
  2. “Propagation of smooth and discontinuous pulses through materials with very large or very small group velocities”, M. S. Bigelow, N. N. Lepeshkin, H. Shin, and R. W. Boyd,  J. Phys.: Cond. Mat. 18, 3117 (2006) PDF




  1. “Synthesis and Photoisomerization Properties of Polynorbornenes with Azobenzene Chromophores”, S. H. Kang, H. D. Shin, C. H. Oh, D. H. Choi, and K. H. Park, Bull. Kor. Chem. Soc. 23, 957 (2002).
  2. “Determination of transition rate constants of trans-cis isomerization in a poly(malonic ester) containing disperse red 1”, H. D. Shin, W. J. Joo, C. H. Oh, P. S. Kim, and Y. K. Han, J. Chem. Phys. 117, 1677 (2002).



  1. “Novel mechanism of fast relaxation of photo-induced anisotropy in a poly(malonic esters) containing p-cyanoazobenzene”, Won-Jae Joo, Hee-Deuk Shin, Cha-Hwan Oh, Seok-Ho Song, Pill-Soo Kim, Bong-Soo Ko, and Yang-Kyoo Han, J. Chem. Phys. 113, 8848 (2000).