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+====== Relevant Literature ======
+Here you can find the literature relevant for the research and developments carried out in the MSM group. Everyone in the MSM group can upload in this section, as long as the papers/books/reviews are really relevant. Upload them in the "relevant_lit" directory.
+===== Superconductivity  =====
+*J. R. Waldram\\
+// The Josephson effects in weakly coupled
+superconductors// \\
+Rep. Prog. Phys. **39**, 751 (1976)\\
+{{relevant_lit:waldramrpp1976.pdf}}
+*R. Meservey and P.M. Tedrow\\
+// Spin-polarized electron tunneling// \\
+PHYSICS REPORTS **238**, 173 (1994)\\
+{{relevant_lit:meserveyreview1994.pdf}}
+*A. A. Golubov, M. Yu. Kupriyanov and E. Il&#8217;ichev\\
+// The current-phase relation in Josephson junctions// \\
+RMP **76**, 411 (2004)\\
+{{relevant_lit:golubovrmp2005.pdf}}
+*E L WOLF\\
+// Electron tunnelling spectroscopy// \\
+Rep. Prog. Phys., **41**, 1439 (1978)\\
+{{relevant_lit:wolfreview1978.pdf}}
+*A. Yu. Rusanov, M. B. S. Hesselberth, and J. Aarts\\
+// Depairing currents in superconducting films of Nb and amorphous MoGe// \\
+PRB **70**, 024510 (2004)\\
+{{relevant_lit:rusanovprb2004.pdf}}
+*P. Yagoubov, G. Gol'tsman, B. Voronov, L. Seidman, V. Siomask, S. Cherednichenko and E. Gershenzon \\
+// The bandwidth of HEB mixers employing ultrathin NbN films on sapphire substrate// \\
+th Int. Symp. Space Terahertz Technology p.290 (1996)\\
+{{relevant_lit:nbn_growth_1996.pdf}}
+===== Magnetism  =====
+*C. H. Marrows\\
+// Spin-polarised currents and magnetic domain walls// \\
+Advances in Physics **54**, 585 (2005)\\
+{{relevant_lit:marrows_adv_phys_2005.pdf}}
+*J. Nogues, Ivan K. Schuller\\
+// Exchange bias// \\
+JMMM **192**, 203 (1999)\\
+{{relevant_lit:noguesjmmm1999.pdf}}
+*S. S. P. Parkin\\
+// Systematic variation of the strength and oscillation period of indirect magnetic exchange coupling through the 3d, 4d and 5d transition metals// \\
+PRL **67**, 3598 (1991)\\
+{{relevant_lit:parkinprl1991.pdf}}
+*J. Bass, W.P. Pratt Jr.\\
+// Current-perpendicular (CPP) magnetoresistance in magnetic
+metallic multilayers// \\
+JMMM **200**, 274 (1999)\\
+{{relevant_lit:bassjmmm1999.pdf}}
+*F. J. Albert, N. C. Emley, E. B. Myers, D. C. Ralph, and R. A. Buhrman\\
+// Quantitative Study of Magnetization Reversal by Spin-Polarized Current
+in Magnetic Multilayer Nanopillars// \\
+PRB **89**, 226802 (2002)\\
+{{relevant_lit:abertprl2002.pdf}}
+*T. Valet and A. Fert\\
+// Theory of the perpendicular magnetoresistance in magnetic multilayers // \\
+PRB **48**, 7099 (1993)\\
+{{relevant_lit:valetprb1993.pdf}}
+*F. J. Jedema, M. S. Nijboer, A. T. Filip, and B. J. van Wees\\
+// Spin injection and spin accumulation in all-metal mesoscopic spin valves// \\
+PRB **67**, 085319 (2003)\\
+{{relevant_lit:vanwees_all_metal.pdf}}
+===== Super/Ferro Hybrids  =====
+*L. R. Tagirov\\
+// Low-Field Superconducting Spin Switch Based on a Superconductor-Ferromagnet Multilayer// \\
+PRL **83**, 2058 (1999)\\
+{{relevant_lit:tagirovprl1999.pdf}}
+*E. A. Demler and G. B. Arnold and M. R. Beasley\\
+// Superconducting proximity effects in magnetic metals// \\
+PRB **55**, 15174 (1997)\\
+{{relevant_lit:demlerprb1997.pdf}}
+*Sangjun Oh and D. Youm and M. R. Beasley\\
+// A superconductive magnetoresistive memory element using controlled
+exchange interaction// \\
+APL **71**, 2376 (1997)\\
+{{relevant_lit:ohapl1997.pdf}}
+*J. Aarts and J. M. E. Geers, E. Bruck, A. A. Golubov and
+R. Coehoorn\\
+// Interface transparency of superconductor/ferromagnetic multilayers// \\
+PRB **56**, 2779 (1997)\\
+{{relevant_lit:aartsprb1997.pdf}}
+*V.V. Ryazanov, V. A. Oboznov, A.Yu. Rusanov, A.V. Veretennikov, A. A. Golubov, and J. Aarts\\
+// Coupling of Two Superconductors through a Ferromagnet: Evidence for a p Junction// \\
+PRL **86**, 2427 (2001)\\
+{{relevant_lit:ryazanovprl2001.pdf}}
+*T. Kontos, M. Aprili, J. Lesueur, F. Genet, B. Stephanidis, and R. Boursier\\
+// Josephson Junction through a Thin Ferromagnetic Layer: Negative Coupling// \\
+PRL **89**, 137007 (2002)\\
+{{relevant_lit:kontosprl2002.pdf}}
+*J. M. E. Geers, M. B. S. Hesselberth, and J. Aarts and
+A. A. Golubov\\
+// Depairing currents in the superconductor-ferromagnet proximity system Nb-Fe// \\
+PRB **64**, 094506 (2001)\\
+{{relevant_lit:geersprb.pdf}}
+*T. Kontos, M. Aprili, J. Lesueur, and X. Grison\\
+// Inhomogeneous Superconductivity Induced in a Ferromagnet by Proximity Effect// \\
+PRL **86**, 304 (2001)\\
+{{relevant_lit:kontosprl2001.pdf}}
+*S. M. Frolov and D. J. Van Harlingen,
+V. A. Oboznov, V. V. Bolginov, and V. V. Ryazanov\\
+// Measurement of the current-phase relation of superconductor/ferromagnet/superconductor
+pi Josephson junctions // \\
+PRB **70**, 144505 (2004)\\
+{{relevant_lit:frolovprb2004.pdf}}
+*A.Yu. Rusanov, M. Hesselberth, and J. Aarts and
+A. I. Buzdin\\
+// Enhancement of the Superconducting Transition Temperature in Nb=Permalloy Bilayers
+by Controlling the Domain State of the Ferromagnet// \\
+PRL **93**, 057002 (2004)\\
+{{relevant_lit:rusanovprl2004.pdf}}
+*J. Y. Gu, J. A. Caballero, R. D. Slater, R. Loloee, and W. P. Pratt, Jr.\\
+// Direct measurement of quasiparticle evanescent waves in a dirty superconductor// \\
+PRB **66**, 140507 (2002)\\
+{{relevant_lit:gu_strong_fsf.pdf}}
+*J.Y. Gu, C.-Y. You,* J. S. Jiang, J. Pearson, Ya. B. Bazaliy, and S. D. Bader\\
+// Magnetization-Orientation Dependence of the Superconducting Transition Temperature
+in the Ferromagnet-Superconductor-Ferromagnet System: CuNi-Nb-CuNi// \\
+PRB **89**, 276001 (2002)\\
+{{relevant_lit:gu_weak_fsf.pdf}}
+*A. Potenza and C. H. Marrows\\
+// Superconductor-ferromagnet CuNi/Nb/CuNi trilayers as superconducting spin-valve core
+structures// \\
+PRB **71**, 180503 (2005)\\
+{{relevant_lit:potenza_weak_fsf.pdf}}
+*F. J. Jedema, B. J. van Wees, B. H. Hoving, A. T. Filip, and T. M. Klapwijk\\
+// Spin-accumulation-induced resistance in mesoscopic ferromagnet-superconductor junctions// \\
+PRB **60**, 16549 (1999)\\
+{{relevant_lit:vanwees_s_f_interface.pdf}}
+===== STM on Superconductors =====
+*S. H. Pan, E. W. Hudson, K. M. Lang, H. Eisaki, S. Uchida
+& J. C. Davis\\
+// Imaging the effects of individual zinc
+impurity atoms on superconductivity
+in Bi2Sr2CaCu2O8+d // \\
+Nat. **403**, 746 (2000)\\
+{{relevant_lit:nature403-746.pdf}}
+*S. H. Pan, J. P. O'Neal, R. L. Badzey, C. Chamon, H. Ding,
+J. R. Engelbrecht, Z. Wang, H. Eisaki, S. Uchida, A. K. Guptak,
+K.-W. Ngk, E. W. Hudson, K. M. Lang & J. C. Davis\\
+// Microscopic electronic
+inhomogeneity in the high-Tc
+superconductor Bi2Sr2CaCu2O8+x // \\
+Nat. **413**, 282 (2001)\\
+{{relevant_lit:413282a0.pdf}}
+*J. E. Hoffman, E. W. Hudson, K. M. Lang, V. Madhavan,
+H. Eisaki, S. Uchida, J. C. Davis\\
+// A Four Unit Cell Periodic
+Pattern of Quasi-Particle
+Surrounding Vortex Cores
+Bi2Sr2CaCu2O81d // \\
+Science **295**, 466 (2002)\\
+{{relevant_lit:s295-466.pdf}}
+*K. McElroy, R. W. Simmonds, J. E. Hoffman, D.-H. Lee
+J. Orenstein, H. Eisaki, S. Uchidak & J. C. Davis\\
+// Relating atomic-scale electronic
+phenomena to wave-like
+quasiparticle states in
+superconducting Bi2Sr2CaCu2O81d // \\
+Nat. **422**, 592 (2003)\\
+{{relevant_lit:nature01496.pdf}}
+*J.M.Byers, M.E.Flatte' and D.J. Scalapino\\
+//Influence of Gap Extrema on the Tunneling Conductance Near an Impurity in an Anisotropic Superconductor// \\
+Phys. Rev. Lett. **71**, 3363 (1993)\\
+{{relevant_lit:p3363_1.pdf}}
+*E. W. Hudson, S. H. Pan, A. K. Gupta, K.-W. Ng, J. C. Davis\\
+//Atomic-Scale Quasi-Particle
+Scattering Resonances in
+Bi2Sr2CaCu2O81d// \\
+Science **285**, 88 (1999)\\
+{{relevant_lit:s285-88.pdf}}
+*J.R.Kirtley et al.\\
+//Local tunneling measurements of the high-Tc superconductor La2-xSrxCuO4-y// \\
+Phys. Rev. B **35**, (R)7216 (1987)\\
+{{relevant_lit:p7216_1.pdf}}
+*S.Pan et al.\\
+//Measurements of the superconducting gap of La-Sr-Cu-O with a scanning-tunneling microscope// \\
+Phys. Rev. B **35**, (R)7220 (1987)\\
+{{relevant_lit:p7220_1.pdf}}
+*T.Miyake, T.Imaizumi, and I.Iguchi\\
+//d-wave anisotropy and coexistence of the superconducting gap and pseudogap in La2&#8211;xSrxCuO4/Ag junctions// \\
+Phys. Rev. B **68**, 214520 (2003)\\
+{{relevant_lit:physrevb_68_214520.pdf}}
+*Hideaki Sakata, Morimi Oosawa, Ken Matsuba, Nobuhiko Nishida, Hiroyuki Takeya and Kazuto Hirata\\
+//Imaging of a Vortex Lattice Transition in YNi2B2C by Scanning Tunneling Spectroscopy// \\
+Phys. Rev. Lett. **84**, 1583 (2000)\\
+{{relevant_lit:p1583_1.pdf}}
+*I. Iguchi, W. Wang, M. Yamazaki, Y. Tanaka, and S. Kashiwaya\\
+//Angle-resolved Andreev bound states in anisotropic d-wave high-Tc YBa2Cu3O7-y superconductors// \\
+Phys. Rev. B **62**, (R)6131 (2000)\\
+{{relevant_lit:pr6131_1.pdf}}
+*Wan Wang, Masashi Yamazaki, Kiejin Lee, and Ienari Iguchi\\
+//Observation of quasiparticle Andreev bound states using YBa2Cu3O7-y/Ag ramp-edge junctions with different interface geometries// \\
+Phys. Rev. B **60**, 4272 (1999)\\
+{{relevant_lit:p4272_1.pdf}}
+*A. M. Troyanovsky, J. Aarts & P. H. Kes\\
+//Collective and plastic vortex motion in superconductors at high flux densities// \\
+Nat. **399**, 665 (1999)\\
+{{relevant_lit:nat399-665.pdf}}
+*A. M. Troyanovski, M. v. Hecke, N. Saha, J. Aarts and P. H. Kes\\
+//STM imaging of flux line arrangements in the peak effect regime//\\
+Phys. Rev. Lett. **89**, 147006 (2001)\\
+{{relevant_lit:physrevlett_89_147006.pdf}}
+*G. J. C. van Baarle, A. M. Troianovski, T. Nishizaki, P. H. Kes, and J. Aarts\\
+//Imaging of vortex configurations in thin films by scanning-tunneling microscopy// \\
+Appl. Phys. Lett. **82**, 1081 (2003)\\
+{{relevant_lit:applphyslett_82_1081.pdf}}
+*G. J. C. van Baarle, A. M. Troianovski, P. H. Kes and J. Aarts\\
+//STM imaging of vortex configurations in films of a-Mo3Ge through a Au layer// \\
+Physica C *369*, 335 (2002)\\
+{{relevant_lit:physc369-335.pdf}}
+*A.P.Volodin, A.A.Golubov, J.Aarts\\
+//Vortex core shapes measured by STM// \\
+Z. Phys. B **102**, 317 (1997)\\
+{{relevant_lit:vortexcoreshapesmeasuredbystm.pdf}}
+*H. F. Hess, R. B. Robinson, R. C. Dynes, J. M. Valles, Jr., and J. V. Waszczak\\
+//Scanning-Tunneling-Microscope Observation of the Abrikosov Flux Lattice and the Density of States near and inside a Fluxoid// \\
+Phys. Rev. Lett. **62**, 214 (1989)\\
+{{relevant_lit:p214_1.pdf}}
+*H. F. Hess, R. B. Robinson, and J. V. Waszczak\\
+//Vortex-core structure observed with a scanning tunneling microscope// \\
+Phys. Rev. Lett. **64**, 2711 (1990)\\
+{{relevant_lit:p2711_1.pdf}}
+*Joel D. Shore, Ming Huang, Alan T. Dorsey, and James P. Sethna\\
+//Density of states in a vortex core and the zero-bias tunneling peak// \\
+Phys. Rev. Lett. **62**, 3089 (1989)\\
+{{relevant_lit:p3089_1.pdf}}
+To be continued..........
+===== Vortex Matter and Dynamics =====
+*Liviu F. Chibotaru, Arnout Ceulemans, Vital Bruyndoncx
+& Victor V. Moshchalkov\\
+//Symmetry-induced formation of
+antivortices in mesoscopic
+superconductors// \\
+Nat. **408**, 833 (2000)\\
+{{relevant_lit:408833a0.pdf}}
+*V. A. Schweigert,F. M. Peeters and P. Singha Deo\\
+//Vortex Phase Diagram for Mesoscopic Superconducting Disks// \\
+Phys. Rev. Lett. **81**, 2783 (1998)\\
+{{relevant_lit:p2783_1.pdf}}
+*Alan T. Dorsey\\
+//Geometry spawns vortices// \\
+Nat. **408**, 783 (2000)\\
+{{relevant_lit:408783a0.pdf}}
+*A. S. Mel'nikov & V. M. Vinokur\\
+//Mesoscopic superconductor as a
+ballistic quantum switch// \\
+Nat. **415**, 60 (2002)
+{{relevant_lit:415060a.pdf}}
+*D. S. Golubovic, W. V. Pogosov, M. Morelle, and V. V. Moshchalkov\\
+//Nucleation of superconductivity in an Al mesoscopic disk
+with magnetic dot// \\
+Appl. Phys. Lett. **83**, 1593 (2003)\\
+{{relevant_lit:applphyslett_83_1593.pdf}}
+*B. J. Baelus and F. M. Peeters\\
+//Dependence of the vortex configuration on the geometry of mesoscopic flat samples// \\
+Phys. Rev. B **65**, 104515 (2002)\\
+{{relevant_lit:physrevb_65_104515.pdf}}
+*J.R.Clem\\
+//Theory of magnetically coupled type-II superconducting films// \\
+Phys. Rev. B **9**, 898 (1974)\\
+{{relevant_lit:p898_1.pdf}}
+*J.W.Ekin, B.Serin, J.R.Clem\\
+//Magnetic coupling in superposed type-II superconducting films// \\
+Phys. Rev. B **9**, 912 (1974)\\
+{{relevant_lit:p912_1.pdf}}
+*A.A.Golubov, U.Hartmann\\
+//Electronic structure of the Abrikosov vortex core in arbitrary magnetic fields// \\
+Phys. Rev. Lett. **72**, 3602 (1994)\\
+{{relevant_lit:p3602_1.pdf}}
+To be continued....
+===== Oxides and HTSC =====
+* K. Dorr\\
+//Ferromagnetic manganites:
+spin-polarized conduction versus
+competing interactions// \\
+J. Phys. D: Appl. Phys. **39**, R125 (2006)\\
+{{relevant_lit:dorr_review.pdf}}
+* Elbio Dagotto\\
+//Complexity in Strongly Correlated Electronic Systems// \\
+Science **309**, 257 (2005)\\
+{{relevant_lit:s309-257.pdf}}
+* K. McElroy, Jinho Lee, J. A. Slezak, D.-H. Lee, H. Eisaki, S. Uchida, and J. C. Davis\\
+//Atomic-Scale Sources and Mechanism of Nanoscale Electronic Disorder in Bi2Sr2CaCu2O8+{delta}// \\
+Science **309**, 1048 (2005)\\
+{{relevant_lit:s309-1048.pdf}}
+*Jan Zaanen and Olle Gunnarsson\\
+//Charged magnetic domain lines and the magnetism of high-Tc oxides// \\
+Phys. Rev. B **40**, 7391 (1989)\\
+{{relevant_lit:p7391_1.pdf}}
+*M. Fäth, S. Freisem, A. A. Menovsky, Y. Tomioka, J. Aarts, and J. A. Mydosh\\
+//Spatially Inhomogeneous Metal-Insulator Transition in Doped Manganites// \\
+Science **285**, 1540 (1999)\\
+{{relevant_lit:s285-1540.pdf}}
+*Y. Tokura, Y. Tomioka\\
+//Colossal Magnetoresistive manganites//\\
+J. Mag. Mag. Mat. **200**, 1 (1999)\\
+{{relevant_lit:tokura_et_al_j._mag._mag._mat._200_1_1999.pdf}}
+*J. Aarts, S. Freisem, R. Hendrikx\\
+//Disorder effects in epitaxial thin films of (La,Ca)MnO3//\\
+Appl. Phys. Lett. **72**, 2975 (1998)\\
+{{relevant_lit:aarts_appl._phys._lett._72_2975_1998.pdf}}
+*Myron B. Salamon, Marcelo Jaime\\
+//The physics of manganites: structure and transport//\\
+Rev. Mod. Phys. **73**, 583 (2001)\\
+{{relevant_lit:physicaofmanganites.pdf}}
+*Z.Q. Yang, R. Hendrikx, J. Aarts, Y.L. Qin, H.W. Zandbergen\\
+//Properties and microstructure of ultrathin (La,Ca)MnO3 films under different conditions of strain//\\
+Phys. Rev. B **70** 174111 (2004)\\
+{{relevant_lit:yanglcmoprop.pdf}}
+*A.J. Millis\\
+//Lattice effects in magnetoresistive manganese perovskites//\\
+Nat. **392**, 147 (1998)\\
+{{relevant_lit:a.j._millis_nature_392_147_1998.pdf}}
+*J.M.D. Coey, M. Viret, L. Ranno
+//Electron localization in mixed-valence manganites//\\
+Phys. Rev. Lett. **75**, 3910 (1995)\\
+{{relevant_lit:coey_et_al_phys._rev._lett._75_3910_1995.pdf}}
+*P.W. Anderson, H. Hasegawa\\
+//Considerations on Double Exchange//\\
+Phys. Rev. **100**, 675 (1955)\\
+{{relevant_lit:doubleexchange.pdf}}
+*C. Zener\\
+//Interaction between the d shells in the transition metals//\\
+Phys. Rev. **81**, 440 (1951)\\
+{{relevant_lit:zenerdexch1.pdf}}
+*C. Zener\\
+//Interaction between the d shells in the transition metals II. Ferromagnetic compounds of manganese with perovskite structure//\\
+Phys. Rev. **82**, 403 (1951)\\
+{{relevant_lit:zenerfmn.pdf}}
+*J.O'Donnell, M. Onellion, M.S. Rzchowski, J.N. Eckstein and I. Bozovic\\
+//Low-field magnetoresistance in tetragonal La_1-xCa_xMnO_3//\\
+Phys. Rev. B, **55**, 5873 (1997)\\
+{{relevant_lit:p5873_1.pdf}}
+*J. Mitra, M. Paranjape, A.K. Raychaudhuri, N.D. Mathur and M.G. Blamire\\
+//Temperature dependence of density of states near the Fermi level in a strain-free epitaxial film of the hole-doped manganite La_{0.7}Ca_{0.3}MnO_3//\\
+Phys. Rev. B, **71**, 094426 (2005)\\
+{{relevant_lit:prb71094426.pdf}}
+*R. Gunnarsson, M. Hanson\\
+//Magnetization reversal processes in magnetic bicrystal junctions//\\
+Phys. Rev. B, **73**, 014435 (2006)\\
+{{:relevant_lit:gunnarssonetal.pdf|:relevant_lit:gunnarssonetal.pdf}}
+*E. Dagotto et al.\\
+//Colossal Magnetoresistant Materials: the Key Role of Phase Separation//\\
+Physics Reports **344**, 1-153 (2001)\\
+{{relevant_lit:dagotto-review-on-cmr.pdf}}
+===== Low-T Scanning Probe Microscopes: Development =====
+*S. H. Pan, E. W. Hudson, and J. C. Davis \\
+//3He refrigerator based very low temperature scanning tunneling microscope// \\
+Rev. Sci. Instr. **70**, 1459 (1999)\\
+{{relevant_lit:revsciinstrum_70_1459.pdf}}
+*G. Mariotto, M. D'Angelo, and I. V. Shvets \\
+//Dynamic behavior of a piezowalker, inertial and frictional configurations// \\
+Rev. Sci. Instr. **70**, 3651 (1999)\\
+{{relevant_lit:revsciinstrum_70_3651.pdf}}
+*Y. Kuk and P. J. Silverman \\
+//Scanning tunneling microscope instrumentation// \\
+Rev. Sci. Instr. **60**, 165 (1989) **REVIEW**\\
+{{relevant_lit:not_downloadable_from_rsi}}
+*    N. Moussy, H. Courtois, and B. Pannetier \\
+//A very low temperature scanning tunneling microscope for the local spectroscopy of mesoscopic structures// \\
+Rev. Sci. Instr. **72**, 128 (2001)\\
+{{relevant_lit:revsciinstrum_72_128.pdf}}
+*    Ch. Witt, U. Mick, M. Bode, and R. Wiesendanger \\
+//An ultrahigh vacuum scanning tunneling microscope for in situ studies of thin-film growth// \\
+Rev. Sci. Instr. **68**, 1455 (1997)\\
+{{relevant_lit:not_downloadable_from_rsi}}
+*Chr. Wittneven and R. Dombrowski, S. H. Pan, R. Wiesendanger \\
+//A low-temperature ultrahigh-vacuum scanning tunneling microscope with rotatable magnetic field// \\
+Rev. Sci. Instr. **60**, 3806 (1997)\\
+{{relevant_lit:not_downloadable_from_rsi}}
+*    W. Allers, A. Schwarz, U. D. Schwarz, and R. Wiesendanger \\
+//A scanning force microscope with atomic resolution in ultrahigh vacuum and at low temperatures// \\
+Rev. Sci. Instr. **69**, 221 (1998)\\
+{{relevant_lit:not_downloadable_from_rsi}}
+*    O. Pietzsch, A. Kubetzka, D. Haude, M. Bode, and R. Wiesendanger \\
+//A low-temperature ultrahigh vacuum scanning tunneling microscope with a split-coil magnet and a rotary motion stepper motor for high spatial resolution studies of surface magnetism// \\
+Rev. Sci. Instr. **71**, 424 (2000)\\
+{{relevant_lit:revsciinstrum_71_424.pdf}}
+*    M. Liebmann, A. Schwarz, S. M. Langkat, and R. Wiesendanger \\
+//A low-temperature ultrahigh vacuum scanning force microscope with a split-coil magnet// \\
+Rev. Sci. Instr. **73**, 3508 (2002)\\
+{{relevant_lit:revsciinstrum_73_3508.pdf}}
+*J. Wiebe, A. Wachowiak, F. Meier, and D. Haude, T. Foster, M. Morgenstern and R. Wiesendanger\\
+//A 300 mK ultra-high vacuum scanning tunneling microscope
+for spin-resolved spectroscopy at high energy resolution// \\
+Rev. Sci. Instr. **75**, 4871 (2004)\\
+{{relevant_lit:revsciinstrum_75_4871.pdf}}
+*Hans J. Hug, B. Stiefel, P. J. A. van Schendel, A. Moser, S. Martin, and H.-J. G�ntherodt\\
+//A low temperature ultrahigh vaccum scanning force microscope// \\
+Rev. Sci. Instr. **70**, 3625 (1999)\\
+{{relevant_lit:revsciinstrum_70_3625.pdf}}
+*njan K. Gupta and K.-W. Ng\\
+//Compact coarse approach mechanism for scanning tunneling microscope// \\
+Rev. Sci. Instr. **72**, 3552 (2001)\\
+{{relevant_lit:revsciinstrum_72_3552.pdf}}
+*G. Nunes, Jr. and Dinsie Williams\\
+//Thermal contraction of ultrahigh vacuum materials for scanning probe
+microscopy from 300 to 4 K// \\
+J. Vac. Sci. Technol. B 13(3), 1063 (1995)\\
+{{relevant_lit:thermal_contraction_low_t_stm_materials.pdf}}
+*C. H. Yang and T. H. Chang, M. J. Yang, W. J. Moore \\
+//A low noise transimpedance amplifier for cryogenically cooled quartz tuning fork force sensors// \\
+Rev. Sci. Instr. **73**, 2713 (2002)\\
+{{relevant_lit:revsciinstrum_73_2713.pdf}}
+*Hal Edwards, Larry Taylor, and Walter Duncan, Allan J. Melmed\\
+//Fast, high-resolution atomic force microscopy using a quartz tuning fork
+as actuator and sensor// \\
+J. Appl. Phys. **82**, 980 (1997)\\
+{{relevant_lit:japplphys_82_980.pdf}}
+*Franz J. Giessibl\\
+//Atomic resolution on Si(111)-(7�7) by noncontact atomic force microscopy with a force sensor based on a quartz tuning fork// \\
+Appl. Phys. Lett. **76**, 1470 (2000)\\
+{{relevant_lit:applphyslett_76_1470.pdf}}
+*Franz J. Giessibl\\
+//High-speed force sensor for force microscopy and profilometry utilizing a quartz tuning fork// \\
+Appl. Phys. Lett. **73**, 3956 (1998)\\
+{{relevant_lit:applphyslett_73_3956.pdf}}
+*Christine Meyer, Omar Sqalli, Heribert Lorenz, and Khaled Karrai\\
+//Slip-stick step-scanner for scanning probe microscopy// \\
+Rev. Sci. Instr. **76**, 063706 (2005)\\
+{{relevant_lit:05_09_meyer_revsciinstrum.pdf}}
+*B. Koslowski, Ch. Dietrich, A. Tschetschetkin, and P. Ziemann\\
+//Design of an extremely stable low-temperature ultrahigh vacuum scanning
+tunneling microscope//\\
+Rev. Sci. Instr. **77**, 063707 (2006)\\
+{{papers:apl:revSciinstrum_77_063707.pdf}}
+*Tomohiro Matsui, Hiroshi Kambara and Hiroshi Fukuyama  \\
+//Development of a new ULT Scanning Tunneling Microscope at University of Tokyo// \\
+J. of Low Temp. Phys. **121**, 803 (2000)\\
+{{relevant_lit:Design_STM_Fukuyama.pdf}} =)
+*T. Matsui, H. Kambara, I. Ueda, T. Shihido, Y. Miyatake and Hiroshi Fukuyama \\
+//Construction of an ultra low temperature STM with a bottom loading mechanism// \\
+Physica B **329-333**, 1653 (2003)\\
+{{relevant_lit:construction_of_ultra_low_temperature_STM.pdf}}
+===== Atomic Force Microscopy =====
+*Sergei V. Kalinin,1, * Andrei Rar,2 and Stephen Jesse1\\
+//A Decade of Piezoresponse Force Microscopy: Progress, Challenges and Opportunities//\\
+Invited Review for IEEE TUFF\\
+{{:afm:pfm.pdf|:afm:pfm.pdf}}
+===== Spin Polarization of Ferromagnets =====
+*R. J. Soulen, Jr., et al\\
+//Measuring the Spin Polarization of a Metal with a Superconducting Point Contact//\\
+Science **282**, 85 (1998)\\
+{{relevant_lit:85.pdf}}
+*J. Y. T. Wei,1 N.-C. Yeh,1 and R. P. Vasquez\\
+//Tunneling Evidence of Half-Metallic Ferromagnetism in La0.7Ca0.3MnO3//\\
+Phys. Rev. Lett. **79**, 5150 (1997)\\
+{{relevant_lit:p5150_1.pdf}}
+*Y. Ji,1 G. J. Strijkers,1 F.Y. Yang,1 C. L. Chien,1 J. M. Byers,2 A. Anguelouch,3 Gang Xiao,3 and A. Gupta4\\
+//Determination of the Spin Polarization of Half-Metallic CrO2
+by Point Contact Andreev Reflection//\\
+Phys. Rev. Lett. **86**, 5585 (2001)\\
+{{relevant_lit:p5585_1.pdf}}
+*G. J. Strijkers, Y. Ji, F. Y. Yang, and C. L. Chien\\
+//Andreev reflections at metal/superconductor point contacts: Measurement and analysis//\\
+Phys. Rev. B **63**, 104510 (2001)\\
+{{relevant_lit:e104510.pdf}}
+*B. Nadgorny,1,* I. I. Mazin,1 M. Osofsky,1 R. J. Soulen, Jr.,1 P. Broussard,1 R. M. Stroud,1 D. J. Singh,1 V. G. Harris,1
+A. Arsenov,2 and Ya. Mukovskii2\\
+//Origin of high transport spin polarization in La0.7Sr0.3MnO3: Direct evidence for minority
+spin states//\\
+Phys. Rev. B **63**, 184433 (2001)\\
+{{relevant_lit:e184433.pdf}}
+*Y. Ji,1 C. L. Chien,1 Y. Tomioka,2,3 and Y. Tokura\\
+//Measurement of spin polarization of single crystals of La0.7Sr0.3MnO3 and La0.6Sr0.4MnO3//\\
+Phys. Rev. B **66**, 012410 (2002)\\
+{{relevant_lit:e012410.pdf}}
+*M. S. Osofsky, B. Nadgorny, R. J. Soulen, Jr., P. Broussard, and M. Rubinstein\\
+//Measurement of the spin polarization of LaSrMnO//\\
+J. Appl. Phys. **85**, 5567 (1999)\\
+{{relevant_lit:japplphys_85_5567.pdf}}
+===== Graphene =====
+*XIAOLIN LI, GUANGYU ZHANG, XUEDONG BAI, XIAOMING SUN, XINRAN WANG, ENGE WANG AND HONGJIE DAI\\ //Highly conducting graphene sheets and Langmuir–Blodgett films//\\ nature nanotechnology 538|VOL 3 | SEPTEMBER 2008\\
+{{relevant_lit: Dai Hongjie.pdf}} =)
+*K.S. Novoselov, A.K. Geim, S.V. Morovoz, D. Jiang, Y. Zhang, S.V. Dubonos, I.V. Grigorieva, A.A. Firsov\\
+//Electric Field Effect in Atomically Thin Carbon Films//\\
+Science **306**, 666 (2004)\\
+{{relevant_lit:old_article_graphene.pdf}} =)
+*K.S. Novoselov, A.K. Geim, S.V. Morovoz, D. Jiang, Y. Zhang, S.V. Dubonos, I.V. Grigorieva, A.A. Firsov\\
+//Electric Field Effect in Atomically Thin Carbon Films-supplement//\\
+Science **306**, 666 (2004)\\
+{{relevant_lit:old_article_graphene_supplement.pdf}} =)
+*A.K. Geim and K.S. Novoselov\\
+//The rise of graphene//\\
+Nature Materials **6**, 183 (2007)\\
+{{relevant_lit:the_rise_of_graphene.pdf}}
+=)
+*K.S. Novoselov, E. McCann, S.V. Morozov, V.I. Fal'Ko, M.I. Katsnelson, U. Zeitler, D. Jiang, F. Schedin and A.K. Geim\\
+//Unconventional quantum Hall effect and Berry's phase of 2π in bilayer graphene//\\
+Nature Physics **Advance Online Publication**, (2006)\\
+{{relevant_lit:quantum_Hall_effect_in_bilayer_graphene.pdf}}
+*Hubert B. Heersche, Pablo Jarillo-Herrero, Jeroen B. Oostinga, Lieven M.K. Vandersypen and Alberto F. Morpurgo\\
+//Bipolar supercurrent in graphene//\\
+Nature **446**, 56 (2007)\\
+{{relevant_lit:bipolar_supercurrent_in_graphene.pdf}}
+*A.C. Ferrari, J.C. Meyer, C. Casiraghi, M. Lazzeri, F. Mauri, S. Piscanec, D. Jiang, K.S. Novoselov, S. Roth and A.K. Geim\\
+//Raman Spectrum of Graphene and Graphene Layers//\\
+Phys. Rev. Letters **97**, 187401 (2006)\\
+{{relevant_lit:raman_spectrum_of_graphene.pdf}}
+=)
+*Claire Berger, Zhimin Song, Xuebin Li, Xiaosong Wu, Nate Brown, Cécile Naud, Didier Mayou, Tianbo Li, Joanna Hass, Alexei N. Marchenkov, Edward H. Conrad, Philip N. First, Walt A. de Heer\\
+//Electronic Confinement and Coherence in Patterned Epitaxial Graphene//\\
+Science **312**, 1191 (2006)\\
+{{relevant_lit:confinement_and_coherence_in_graphene.pdf}}
+=)
+*Z.F. Wang, Huaixiu Zheng, Q.W. Shi, Jie Chen, Jinlong Yang and J.G.Hou\\
+//An insight into the electronic structure of graphene: from monolayer to multi-layer//\\
+arXiv:cond-mat/0703422v1\\
+{{relevant_lit:electronic_structure_of_graphene.pdf}} =)
+*V.P. Gusynin, S.G. Sharapov and J.P. Carbotte\\
+//Anomalous Absorption Line in the Magneto-Optical Response of Graphene//\\
+Physical Review Letters **98**, 157402 (2007)\\
+{{relevant_lit:MO_response_of_graphene.pdf}}
+*V.P. Gusynin and S.G. Sharapov \\
+//Transport of Dirac quasiparticles in graphene: Hall and optical conductivities//\\
+Physical Review B **73**, 245411 (2006)\\
+{{relevant_lit:optical_conductivity_of_graphene.pdf}}
+*Jannik C. Meyer, A.K. Geim, M.I. Katsnelson, K.S. Novoselov, T.J. Booth and S.Roth \\
+//The structure of suspended graphene sheets//\\
+Nature **446**, 60 (2007)\\
+{{relevant_lit:structure_suspended_graphene.pdf}}
+*Jannik C. Meyer, A.K. Geim, M.I. Katsnelson, K.S. Novoselov, T.J. Booth and S.Roth \\
+//The structure of suspended graphene sheets-supplement//\\
+Nature **446**, 60 (2007)\\
+{{relevant_lit:structure_suspended_graphene_supplement.pdf}}
+*Kikuo Harigaya, Yousuke Kobayashi, Kazuyuki Takai, Jérôme Ravier and Toshiaki Enoki \\
+//Novel electronic wave interference patterns in nanographene sheets//\\
+arXiv:cond-mat/0208323v3\\
+{{relevant_lit:electronic_wave_interference_patterns.pdf}}
+*P. Mallet, F. Varchon, C. Naud, L.Magaud, C. Berger and J.-Y. Veuillen \\
+//Electron states of mono- and bilayer graphene on SiC probed by STM//\\
+arXiv:cond-mat/07024063v1\\
+{{relevant_lit:electron_states_STM.pdf}}
+*S. Roddaro, P. Pingue, V. Piazza, V. Pellgrini and F. Beltram \\
+//Colors Of Graphite on Silicon Dioxide//\\
+???\\
+{{relevant_lit:colors_of_graphite_on_SO2.pdf}}=)
+*N. Staley, H. Wang, C. Puls, J. Forster, T.N. Jackson, K. McCarthy, B. Clouser and Y. Liu\\
+//Lithography-free fabrication of graphene devices//\\
+Applied Physics Letters **90**, 143518 (2007)\\
+{{relevant_lit:lithography-free_fabrication.pdf}}
+===== STM on graphite =====
+*Y. Niimi, T. Matsui, H. Kambara, K. Tagami, M. Tsukada and Hiroshi Fukuyama\\
+//Scanning tunneling microscopy and spectroscopy of the electronic local density of states of graphite surfaces near monoatomic step edges//\\
+Physical Review B **73**, 085421 (2006)\\
+{{relevant_lit:stm_on_graphite_near_monoatomic_step_edges.pdf}} =)
+*Yousuke Kobayashi, Ken-ichi Fukui, Toshiaki Enoki and Koichi Kusakabe\\
+//Edge state on hydrogen-terminated graphite edges investigated by scanning tunneling microscopy//\\
+Physical Review B **73**, 125415 (2006)\\
+{{relevant_lit:edge_state_on_h-terminated_graphite_edges.pdf}} :-(
+===== Nanotechnology =====
+===== Sputtering Technology =====