主要成就
论文著作
[43] Daniel Y. Ling and Xinsheng Sean Ling, “On the distribution of DNA translocation times in solid-state nanopores: an analysis using Schrödinger's first-passage-time theory”, J. Phys.: Condens. Matter25, 375102 (2013).[42] Sungcheol Kim, Lichao Yu, Stephanie Huang, Alexandros Pertsinidis, and Xinsheng Sean Ling, Optical Tweezers as a Micromechanical Tool for Studying Defects in 2D Colloidal Crystals (Invited Paper), Proc. of SPIE Vol.8097, 80970X-1(2011).[41] Helen A. Hanson, Xi Wang,I.K. Dimitrov, J. Shi, X.S. Ling, B.B. Maranville, C.F. Majkrzak M. Laver, U. Keiderling, M. Russina, Structural evidence for an edge-contaminated vortex phase in a Nb crystal using neutron diffraction Phys. Rev. B 84, 014506 (2011).[40] Xinsheng Sean Ling, Fabrication and Integration of Solid-State Nanopores, and Applications in Molecular Biophysics (A review chapter), to be published in Nanopores (edited by Rashid Bashir, Samir Iqbal), (Springer, 2011).[39] Xi Wang, Helen A. Hanson, Xinsheng Sean Ling, Charles F. Majkrzak, Brian B. Maranville, 3D Spatially Resolved Neutron Diffraction from a Disordered Vortex Lattice (arXiv:1102.4776), J. App. Cryst. 44, 414 (2011).[38] Venkat S.K. Balagurusamy, Paul Weinger, & Xinsheng Sean Ling, Detection of DNA hybridizations using solid-state nanopores, Nanotechnology 21, 335102 (2010).[37] Hongbo Peng and X. S. Ling, “Reverse DNA translocation through a solid-state nanopore by magnetic tweezers”, Nanotechnology, 20, 185101 (2009).[36] D. Branton, D. Deamer, A. Marziali, H. Bayley, S.A. Benner, T. Butler, M. Di Ventra, S. Garaj, A. Hibbs, X. Huang, S. B. Jovanovich, P. S. Krstic, S. Lindsay, X. S. Ling, C. H. Mastrangelo, A. Meller, J. S. Oliver, Y. V. Pershin, J. M. Ramsey, R. Riehn, G. V. Soni, V. Tabard-Cossa, M. Wanunu, M. Wiggin & J. A. Schloss, “Review: The potential and challenges of nanopore sequencing”, Nature Biotechnology 26, 1146 - 1153 (2008).[35] A. Pertsinidis and X.S. Ling, Statics and Dynamics of 2D Colloidal Crystals in a Random Pinning Potential, Physical Review Letters, 100, 028303 (2008).[34] N. D. Daniilidis, S. R. Park, I. K. Dimitrov, J. W. Lynn, X. S. Ling, Emergence of Quasi-Long-Range Order below the Bragg Glass Transition, Physical Review Letters, 99, 147007 (2007).[33] N. Daniilidis, I. Dimitrov and X. S. Ling, Ewald construction and resolution function for rocking-curve Small Angle Neutron Scattering experiments, Journal of Applied Crystallography, 40, 959-963 (2007).[32] I. K. Dimitrov, N. D. Daniilidis, C. Elbaum, J. W. Lynn, X. S. Ling, “Peak Effect in Polycrystalline Vortex Matter”, Physical Review Letters 99, 047001 (2007).[31] N. D. Daniilidis, I. K. Dimitrov, V. F. Mitrovic, C. Elbaum, X. S. Ling, “Magnetocaloric Studies of the Peak Effect in Nb”, Physical Review B 75, 174519 (2007).[30] S.R. Park, H. Peng, and X.S. Ling, Fabrication of Nanopores in Silicon Chips Using Feedback Chemical Etching, SMALL 3, 116 (2007).[29] S. Wu, S.R. Park, and X.S. Ling, Lithography-Free Formation of Nanopores in Plastic Membranes using Laser Heating, Nano Letters 6, 2571(2006).[28] A.J. Storm, J.H. Chen, X.S. Ling, H. Zandbergen, and C. Dekker, “Electron-Beam-Induced Deformations of SiO2 Nanostructures”, Journal of Applied Physics 98, 014307 (2005).[27] X.S. Ling, Scars on a colloidal crystal ball, News & Views, Nature Materials, 4, 360 (2005).[26] A. Pertsinidis and X.S. Ling, “Video microscopy and micromechanics studies of one- and two-dimensional colloidal crystals” (Invited Paper), Focus Issue on Brownian Motion and Diffusion in the 21st Century (Institute of Physics and Deutsche Physikalische Gesellschaft), New Journal of Physics, 7, 33 (2005).[25] S.R. Park, S.M. Choi, D.C. Dender, J.W. Lynn, and X.S. Ling, “Fate of the Peak Effect in a Type-II Superconductor: Multicriticality of the Bragg-Glass Transition, Physical Review Letters, 91, 167003 (2003).[24] A.J. Storm, J.H. Chen, X.S. Ling, H. Zandbergen, and C. Dekker, “Fabrication of Solid-State Nanopores with Single Nanometer Precision”, Nature Materials, 2, 537 (2003).[23] X.S. Ling, S.R. Park, B.A. McClain, S.M. Choi, D.C. Dender, and J.W. Lynn, Physical Review Letters, 89, 259702 (2002), “Ling et al. Reply.[22] A. Pertsinidis and X.S. Ling, “Diffusion of Point Defects in Two-Dimensional Colloidal Crystals”, Nature, 413, 147 (2001).[21] A. Pertsinidis and X.S. Ling, “Equilibrium Configurations and Energetics of Point Defects in Two-Dimensional Colloidal Crystals”, Physical Review Letters, 87, 098303 (2001).[20] X.S. Ling, S.R. Park, B.A. McClain, S.M. Choi, D.C. Dender, and J.W. Lynn, “Superheating and Supercooling of Vortex Matter in a Nb Single Crystal: Direct Evidence for a Phase Transition at the Peak Effect from Neutron Diffraction, Physical Review Letters, 86, 712 (2001) (a PR Focus story, 1/19/01).[19] H. H. Wen, S. L. Li, G. H. Chen, and X. S. Ling, “Vortex-slush state in YBa2 Cu3 O7- thin films”, Physical Review, B 64, 054507 (2001).[18] J. Shi, X. S. Ling, R. Liang, D.A. Bonn, W.N. Hardy, Physical Review, B Rapid Communications, 60, R12593 (1999), “Giant Peak Effect Observed in an Ultra-pure YBa2Cu3O7 Crystal. [17] X.S. Ling, S.J. Smullin, J.E. Berger, W.L. Karlin, D.E. Prober, R. Liang, “Equilibrium and Driven Vortex Phases in the Anomalous Peak Effect”, Philosophical Magazine Letters, 79, 399 (1999).[16] J. Shi, J.E. Berger, and X.S. Ling, Physica C, 301, 215 (1998), “Growth of YBa2Cu3O7 Crystals with BaZrO3-Coated Alumina Crucibles.[15] X.S. Ling, J.E. Berger, and D. E. Prober, Physical Review, B Rapid Communications, 57, R3249 (1998), “Nature of Vortex Lattice Disordering at the Onset of the Peak Effect.[14] X.S. Ling, J.I. Budnick, and B.W. Veal, Physica C, 282, 2191 (1997), “Peak Effect and Its Disappearance in Superconducting YBCO Crystals.[13] J.D. McCambridge, N. Rizzo, S. Hess, J. Wang, X.S. Ling, and D.E. Prober, IEEE Transactions on Applied Superconductivity, 7, 1134 (1997), “Pinning and Vortex Lattice Structure in NbTi Alloy Multilayers.[12] X.S. Ling, H.J. Lezec, M.J. Higgins, J.S. Tsai, J. Fujita, Y. Nakamura, Chao Tang, P.M. Chaikin, and S. Bhattacharya, Physical Review Letters, 76, 2989 (1996), “Nature of Phase Transitions of Superconducting Wire Networks in a Magnetic Field.[11] C. Tang, X.S. Ling, S. Bhattacharya, and P.M. Chaikin, Europhysics Letters, 35, 597 (1996), “Peak Effect in Superconductors: Melting of Larkin Domains.[10] S. Field, J. Witt, F. Nori, and X.S. Ling, Physical Review Letters, 74, 1206 (1995), “Superconducting Vortex Avalanches”.[9] X.S. Ling, J.D. McCambridge, N.D. Rizzo, J.W. Sleight, D.E. Prober, L.R. Motowidlo, and B.A. Zeitlin, Physical Review Letters, 74, 805 (1995), “Fluctuation Effects on a Strongly Pinned Vortex Lattice in a Thin Type-II Superconducting Wire”.[8] J.D. McCambridge, N.D. Rizzo, X.S. Ling, J. Wang, D.E. Prober, L. Motowidlo, and B.A. Zeitlin, IEEE Transactions on Applied Superconductivity, 5, 1697 (1995), “Flux Pinning in NbTi/Nb Multilayer.[7] X.S. Ling, J.D. McCambridge, N.D. Rizzo, J.W. Sleight, D.E. Prober, L.R. Motowidlo, and B.A. Zeitlin, Physica B, 194-196, 1867 (1994), “Flux Dynamics in Submicron Superconducting NbTi Wires”.[6] L. Motowidlo, B. Zeitlin, J. McCambridge, N. Rizzo, X.S. Ling, and D.E. Prober, IEEE Transactions on Applied Superconductivity, 3, 1366 (1993), “Multifilamentary NbTi with Artificial Pinning Centers”.[5] H. Liu, E. Gregory, N.D. Rizzo, J.D. McCambridge, X.S. Ling, and D.E. Prober, IEEE Transactions on Applied Superconductivity, 3, 1350 (1993), “Experimental Results on Nb-Ta-Ti Superconducting Wires”.[4] X.S. Ling, D. Shi, and J.I. Budnick, Physica C, 185, 2181 (1991), “Self-Organized Critical State in HTSC”.[3] D. Shi, X.S. Ling, M. Xu, M. Fang, S. Luo, J.I. Budnick, B. Dabrowski, D. Hinks, and Y. Zheng, Physical Review B, 43, 3684 (1991), “Irreversibility in BaKBiO3”.[2] X.S. Ling and J.I. Budnick, “AC Magnetic Susceptibility Studies of Type-II Superconductors: Vortex Dynamics”, in Magnetic Susceptibility of Superconductors and Other Spin Systems, Edited by R.A. Hein, T.L. Francavilla, & D.H. Liebenberg, (Plenum, New York, 1991), p.377.[1] X. S. Ling, M.E. Filipkowski, E. Heller, J.I. Budnick, Materials Research Society Symposium Proceedings 169, 947 (1990), “AC Susceptibility Studies of High-Tc Superconductors: Dissipative Effects in LaSrCuO and YBaCuO Systems”.
