论文

•  Wang, K. (2021) Deep-learning-enhanced light-field microscopy. Nat. Methods 18: 459-460.
•  Zhang, Z.#, Bai, L. #, Cong, L. #,Yu, P., Zhang, T., Shi, W., Li, F., Du, J. & Wang, K.* (2021) Imaging volumetric dynamics at high speed in mouse and zebrafish brain with confocal light field microscopy. Nat. Biotechnol. 39: 74-83.
•  Zhang, Z., Cong, L., Bai, L., Wang, K.* (2021) Light-field microscopy for fast volumetric brain imaging. J. Neurosci. Meth. 352: 109083.
•  Yoon, Y.#, Wang, Z.#, Park, N., Park, D., Dai, P., Kang, J.S., Suk, H., Symvoulidis, P., Guner-Ataman, B., Wang, K. & Boyden, E.S.*. (2020) Sparse decomposition light-field microscopy for high speed imaging of neuronal activity. Optica 7: 1457-1468.
•  Cong, L.#, Wang, Z.#, Chai, Y.#, Hang, W.#, Shang, C., Yang, W., Bai, L., Du, J., Wang, K.*, Wen, Q.* (2017) Rapid whole brain imaging of neural activity in freely behaving larval zebrafish. eLife 6: e28158.
•  Liu, T.#, Upadhyayula, S.#, Milkie, D.E., Singh, V., Wang, K., Swinburne, I.A., Mosaliganti, K.R., Collins, Z.M., Hiscock, T.W., Shea, J., Kohrman, A.Q., Medwig, T.N., Dambournet, D., Forster, R., Cunniff, B., Ruan, Y., Yashiro, H., Scholpp, S., Meyerowitz, E.M., Hockemeyer, D., Drubin, D.G., Martin, B.L., Matus, D.Q., Koyama, M., Megason, S.G., Kirchhausen, T., Betzig, E.* (2018) Observing the cell in its native state: Imaging subcellular dynamics in multicellular organisms. Science 360: 284.
•  Wang, K. #, Sun, W. #, Richie, C.T., Harvey, B.K., Betzig, E.* & Ji, N.* (2015) Direct wavefront sensing for high-resolution imaging in highly scattering tissue. Nat. Commun. 6: 7276.
•  Chen, B.#, Legant W.R.#, Wang, K. #, Shao, L., Milkie, D.E., Davidson, M.W., Janetopoulos, C., Wu, X.S., Hammer III, J.A., Liu, Z., English, B.P., Mimori-Kiyosue, Y., Romero, D.P., Ritter, A.T., Lippincott-Schwartz, J., Fritz-Laylin, L., Mullins, R.D., Mitchell, D.M., Bembenek, J.N., Reymann, A., B?hme, R., Grill, S.W., Wang, J.T., Seydoux, G., Tulu, U.S., Kiehart, D.P., Betzig, E.* (2014) Lattice light sheet microscopy: imaging molecules to embryos at high spatiotemporal resolution. Science 346: 1257998.
•  Wang, K., Milkie, D. E., Saxena, A. Engerer, P., Misgeld, T., Bronner, M.E., Mumm, J. & Betzig, E.* (2014) Rapid adaptive optical recovery of optimal resolution over large volumes. Nat. Methods 11: 625-628.
•  Wang, K. & Crozier, K.B.* (2012) Plasmonic trapping with a gold nanopillar. ChemPhysChem 13: 2639-2648.
•  Wang, K., Schonbrun, E., Steinvurzel, P. & Crozier, K.B.* (2011) Trapping and rotating nanoparticles using a plasmonic nano-tweezer with an integrated heat sink. Nat. Commun. 2: 469.
•  Wang, K., Schonbrun, E. & Crozier, K.B.* (2010) Scannable plasmonic trapping using a gold stripe. Nano Lett. 10: 3506-3511.
•  Wang, K., Schonbrun, E. & Crozier, K.B.* (2009) Propulsion of Gold Nanoparticles with Surface Plasmon Polaritons: Evidence of Enhanced Optical Force from Near-Field Coupling between Gold Particles and Gold Film. Nano Lett. 9: 2623-2629.
•  Wang, K., Zheng, X., Zhang, H. & Guo, Y.* (2007) A radio-over-fiber downstream link employing carrier-suppressed modulation scheme to regenerate and transmit vector signals. IEEE Photonic Tech. L. 19: 1365-1367.
•  Yu, X., Wang, K., Zheng, X. and Zhang, H.* (2007) Incoherent photonic digital-to-analogue converter based on broadband optical source. Electron. Lett. 43: 1044-1045.
•  Jiang, H., Wen, H., Zheng, X., Liu, Z., Wang, K., Zhang, H. & Guo, Y.* (2007) Improved optical single-sideband generation using the self-modulation birefringence difference in semiconductor optical amplifiers. Opt. Lett. 32: 2580-2582.