2021
  1. G.H.Ahn, K.Yang, R.Trivedi, A.D.White, L.Su, J.Skarda, J.Vučković, "Augmenting On-Chip Microresonator through Photonic Inverse Design," arXiv:2109.07097.

  2. K.Yang, A.D.White, F.Ashtiani, C.Shirpurkar, S.V.Pericherla, L.Chang, H.Song, K.Zou, H.Zhou, K.Pang, J.Yang, M.A.Guidry, D.M.Lukin, H.Hao, L.Trask, G.H.Ahn, A.Netherton, T.C.Briles, J.R.Stone, L.Rechtman, J.S.Stone, K.Van Gasse, J.L.Skarda, L.Su, D.Vercruysse, J.P.W.MacLean, S.Aghaeimeibodi, M.-J.Li, D.A.B.Miller, D.Marom, S.B.Papp, A.E.Willner, J.E.Bowers, P.J.Delfyett, F.Aflatouni, J.Vučković, "Inverse-designed multi-dimensional silicon photonic transmitters," arXiv:2103.14139.

  3. M.A.Guidry, D.M.Lukin, K.Yang, R.Trivedi, J.Vučković, "Quantum optics of soliton microcombs," Nature Photonics (in press).

  4. D.Vercruysse, N.V.Sapra, K.Yang, J.Vučković, "Inverse-designed photonic crystal circuits for optical beam steering," ACS Photonics (2021).

  5. K.Wang, A.Dutt, K.Yang, C.C.Wojcik, J.Vučković, S.Fan, "Generating arbitrary topological windings of a non-Hermitian band," Science 371, 1240-1245 (2021).
2020 (5 papers)
  1. M.Guidry, K.Yang, D.M.Lukin, A.Markosyan, J.Yang, M.M.Fejer, J.Vučković, "Optical parametric oscillation in silicon carbide nanophotonics," Optica 7, 1138-1142 (2020).

  2. K.Yang, J.Skarda, M.Cotrufo, A.Dutt, G.H.Ahn, M.Sawaby, D.Vercruysse, A.Arbabian, S.Fan, A. Alù, J.Vučković, "Inverse-designed nonreciprocal pulse router for chip-based LiDAR," Nature Photonics 14, 369-374 (2020).

  3. Y.H.Lai, M.G.Suh, Y.K.Lu, B.Shen, Q.F.Yang, J.Li, S.H.Lee, K.Yang, K.Vahala, "Earth rotation measured by a chip-scale ring laser gyroscope," Nature Photonics 14, 345-349 (2020).

  4. D.Lukin, C.Dory, M.Guidry, K.Yang, S.D.Mishra, R.Trivedi, M.Radulaski, S.Sun, D.Vercruysse, G.H.Ahn, J.Vučković, "4H-Silicon-Carbide-on-Insulator for Integrated Quantum and Nonlinear Photonics," Nature Photonics 14, 330-334 (2020).

  5. N.V.Sapra, K.Yang, D.Vercruysse, K.L.Leedle, D.S.Black, R.J.England, L.Su, Y.Miao, O.Solgaard, R.L.Byer, J.Vučković, "On-chip integrated laser-driven particle accelerator," Science 367, 79-83 (2020).
2019 (5 papers)
  1. C.Dory, D.Vercruysse, K.Yang, N.V.Sapra, A.Rugar, S.Sun, D.M.Lukin, A.Piggott, J.L.Zhang, M.Radulaski, K.Lagoudakis, L.Su, J.Vučković, "Inverse-designed diamond photonics," Nature Communications 10, 3309 (2019).

  2. U.Niedermayer, A.Adelmann, S.Bettoni, M.Calvi, M.Dehler, E.Ferrari, F.Frei, D.Hauenstein, B.Hermann, N.Hiller, R.Ischebeck, C.Lombosi, E.Prat, S.Reiche, L.Rivkin, R.Abmann, U.Dorda, I.Hartl, W.Kuropka, F.Lemery, B.Marchetti, F.Mayet, H.Xuan, J.Zhu, D.Black, P.Broaddus, R.L.Byer, A.Ceballos, H.Deng, S.Fan, J.Harris, T.Hirano, T.W.Hughes, Y.Jiang, T.Langenstein, K.Leedle, Y.Miao, A.Ody, A.Piggott, N.Sapra, O.Solgaard, L.Su, S.Tan, J.Vuckovic, K.Yang, Z.Zhao, O.Boine-Frankenheim, T.Egenolf, E.Skaear, D.Cesar, P.Musumeci, B.Naranjo, J.Rosenzweig, X.Shen, B.Cowan, R.J.England, Z.Huang, H.Cankaya, M.Fakhari, A.Fallahi, F.X.Kaeartner, T.Feurer, P.Hommelhoff, J.Illmer, A.Li, A.Mittelbach, J.McNeur, N.Schoenenberger, R.Shiloh, A.Tafel, P.Yousefi, M.Kozak, M.Qi, Y.Lee, Y.-Huang, E.Simakov, "Challenges in simulating beam dynamics of dielectric laser acceleration," International Journal of Modern Physics A 34, 1942031 (2019).

  3. Z.L.Newman, V.Maurice, T.E.Drake, J.R.Stone, T.C.Briles, D.T.Spencer, C.Fredrick, Q.Li, D.Westly, B.R.Ilic, B.Sheng, M.-G.Suh, K.Yang, C.Johnson, D.M.S.Johnson, L.Hollberg, K.Vahala, K.Srinivasan, S.A.Diddams, J.Kitching, S.B.Papp, M.T.Hummon, "Architecture for the photonic integration of an optical atomic clock," Optica 6, 680-685 (2019).

  4. Q.-F.Yang, B.Shen, H.Wang, M.Tran, Z.Zhang, K.Yang, L.Wu, C.Bao, J.Bowers, A.Yariv, K.Vahala, "Vernier spectrometer using counter-propagating soliton microcombs," Science 363, 965-968 (2019).

  5. N.V.Sapra, D.Vercruysse, L.Su, K.Yang, J.L.Skarda, A.Y.Piggott, J.Vučković, "Inverse design and demonstration of broadband grating couplers," IEEE Journal of Selected Toptics in Quantum Electronics 25, 1-7 (2019).
2018 (6 papers)
  1. D.C.Cole, J.R.Stone, M.Erkintalo, K.Yang, X.Yi, K.Vahala, S.Papp, "Kerr-microresonator solitons from a chirped background," Optica 5, 1304-1310 (2018).

  2. X.Yi, Q.-F.Yang, K.Yang, K.Vahala, "Imaging soliton dynamics in optical microcavities," Nature Communications 9, 3656 (2018).

  3. K.Yang, D.Y.Oh, S.H.Lee, Q.-F.Yang, X.Yi, B.Shen, H.Wang, K.Vahala, "Bridging ultra-high-Q devices and photonic circuits," Nature Photonics 12, 297-302 (2018).

  4. D.T.Spencer, T.Drake, T.C.Briles, J.Stone, L.C.Sinclair, C.Fredrick, Q.Li, D.Westly, B.R.Ilic, A.Bluestone, N.Volet, T.Komljenovic, L.Chang, S.H.Lee, D.Y.Oh, M.-G.Suh, K.Yang, M.H.P.Pfeiffer, T.J.Kippenberg, E.Norberg, L.Theogarajan, K.Vahala, N.R.Newbury, K.Srinivasan, J.E.Bowers, S.A.Diddams, S.B.Papp, "An optical-frequency synthesizer using integrated photonics," Nature 557, 81-85, (2018).

  5. X.Li, B.Shen, H.Wang, K.Yang, X.Yi, Q.-F.Yang, Z. Zhou, K.Vahala, "Measurement of Iso-Contours for Dissipative Kerr Solitons," Optics Letters 43, 2567-2570 (2018).

  6. N.Volet, X.Yi, Q.-F.Yang, E.J.Stanton, P.A.Morton, K.Yang, K.Vahala, J.E.Bowers, "Micro-resonator soliton generated directly with a diode laser," Laser & Photonics Reviews, 1700307 (2018).
2017 (6 papers)
  1. S.H.Lee, D.Y.Oh, Q.-F.Yang, B.Shen, H.Wang, K.Yang, Y.H.Lai, X.Yi, K.Vahala, "Towards visible soliton microcomb generation," Nature Communications 8, 1295 (2017).

  2. Q.Yang, X.Yi, K.Yang, K.Vahala, "Counter-propagating solitons in microresonators," Nature Photonics 11, 560-564 (2017).

  3. Y.-H.Lai, K.Yang, M.-G.Suh, K.Vahala, "Fiber taper characterization by optical backscattering reflectometry," Optics Express 25, 22312-22327 (2017).

  4. X.Yi, Q.-F.Yang, X.Zhang, K.Yang, X.Li, K.Vahala, "Single-mode dispersive waves and soliton microcomb dynamics," Nature Communications 8, 14869 (2017).

  5. D.Y.Oh, K.Yang, C.Fredrick, G.Ycas, S.A.Diddams, K.Vahala, "Coherent ultra-violet to near-infrared generation in silica ridge waveguides," Nature Communications 8, 13922 (2017).

  6. Q.-F.Yang, X.Yi, K.Yang, K.Vahala, "Stokes solitons in optical microcavities," Nature Physics 13, 53-57 (2017).
2016 (6 papers)
  1. M.Suh, Q.Yang, K.Yang, X.Yi, K.Vahala, "Microresonator soliton dual-comb spectroscopy," Science 354, 600-603 (2016).

  2. Q.-F.Yang, X.Yi, K.Yang, K.Vahala, "Spatial-mode-interaction-induced dispersive-waves and their active tuning in microresonators," Optica 3, 1132-1135 (2016).

  3. X.Yi, Q.-F.Yang, K.Yang, K.Vahala, "Theory and measurement of the soliton self-frequency shift and efficiency in optical microcavities," Optics Letters 41, 3419-3422 (2016).

  4. P.Del'Haye, A.Coillet, T.Fortier, K.Beha, D.C.Cole, K.Yang, H.Lee, K.Vahala, S.Papp, S.Diddams, "Phase-coherent microwave-to-optical link with a self-referenced microcomb," Nature Photonics 10, 516-520 (2016).

  5. K.Yang, K.Beha, D.Cole, X.Yi, P.Del'Haye, H.Lee, J.Li, D.Y.Oh, S.Diddams, S.Papp, K.Vahala, "Broadband dispersion-engineered microresonator on a chip," Nature Photonics 10, 316-320 (2016).

  6. X.Yi, Q.-F.Yang, K.Yang, K.Vahala, "Active capture and stabilization of temporal solitons in microresonators," Optics Letters 41, 2037-2040 (2016).
2009-2015 (8 papers)
  1. X.Yi, Q.-F.Yang, K.Yang, M.-G.Suh, K.Vahala, ``Soliton frequency comb at microwave rates in a high-Q silica microresonator," Optica 2, 1078-1085 (2015).

  2. D.Y.Oh, D.Sell, H.Lee, K.Yang, S.A.Diddams, K.Vahala, ``Supercontinuum generation in an on-chip Silica waveguide," Optics Letters 39, 1046-1048 (2014).

  3. J.Li, H.Lee, K.Yang, K.Vahala, ``Sideband spectroscopy and dispersion measurement in microcavities," Optics Express 20, 26337-26344 (2012).

  4. H.Lee, T.Chen, J.Li, K.Yang, S.Jeon, O.Painter, K.Vahala, ``Chemically etched ultra-high-Q resonator on a silicon chip," Nature Photonics 6, 369-373 (2012).

  5. K.Yang, V.Giannini, A.O.Bak, H.Amrania, S.A.Maier, C.C.Phillips, ``Subwavelength imaging with quantum metamaterials," Physical Review B 86, 075309 (2012).

  6. K.Yang, K.C.Choi, I.-S.Kang, C.W.Ahn, ``Surface plasmon resonance enhanced photoconductivity in Cu nanoparticle films", Optics Express 18, 16379-16386 (2010).

  7. K.Yang, K.C.Choi, C.W.Ahn, ``Surface plasmon-enhanced energy transfer in an organic light-emitting device structure", Optics Express 17, 11495-11504 (2009).

  8. K.Yang, K.C.Choi, C.W.Ahn, ``Surface plasmon-enhanced spontaneous emission rate in an organic light-emitting device structure: cathode structure for plasmonic application", Applied Physics Letters 94, 173301 (2009).