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分享英文专著:Nano- andMicromaterials(附件已重新压缩上传)
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editors:Jun Takeda Yoshiyuki Kawazoe Kaoru Ohno Masatoshi Tanaka Contents 1 General Introduction K. Ohno ........................................................ 1 References ...................................................... 15 2 Nanometer-Scale Structure Formation on Solid Surfaces M. Tanaka, K. Shudo, and S. Ohno ................................ 19 2.1 Introduction................................................ 19 2.2 Atomic Layer Etching Processes on Silicon Surfaces . . . . . . . . . . . . . 21 2.2.1 Introduction ......................................... 21 2.2.2 Real-TimeOpticalMeasurements....................... 24 2.2.3 Adsorption of Halogen Atoms: Sticking Coefficient andPotentialBarrier.................................. 26 2.2.4 Site-SelectiveAdsorption .............................. 34 2.2.5 Desorption of Silicon Halides and Restoration of the DAS Structure ............................................ 39 2.2.6 Summary............................................ 48 2.3 Nanoscale Fabrication Processes of Silicon Surfaces with Halogens . 502.3.1 Introduction ......................................... 50 2.3.2 Scanning Tunneling Microscopy. . . . . . . . . . . . . . . . . . . . . . . . . 53 2.3.3 ThermalDesorptionProcess ........................... 56 2.3.4 ClusterAlignmentbyPassiveFabrication................ 62 2.3.5 ActiveFabrication .................................... 68 2.3.6 Summary............................................ 76 2.4 Self-Organized Nanopattern Formation on Copper Surfaces . . . . . . . 77 2.4.1 Introduction ......................................... 77 2.4.2 Experiments ......................................... 78 2.4.3 Novel Phenomena on Cu(001)–c(2×2)N.................. 79 2.4.4 Nanopattern Formation at Vicinal Surfaces . . . . . . . . . . . . . . 79 2.4.5 Strain-Dependent Nucleation of Metal Islands . . . . . . . . . . . . 82 2.4.6 Strain-Dependent DissociationofOxygenMolecules....... 85 2.4.7 Summary............................................ 88 References ...................................................... 893 Ultrafast Laser Spectroscopy Applicable to Nano- and Micromaterials J. Takeda ....................................................... 97 3.1 Introduction................................................ 97 3.2 Femtosecond Optical Kerr Gate Luminescence Spectroscopy . . . . . . 97 3.2.1 Time-Resolved Luminescence Spectroscopy: Up-Conversion Technique vs. Opical Kerr Gate Method . . . 97 3.2.2 Femtosecond OKG Method: Experimental Setup andResults .......................................... 99 3.3 Femtosecond Transient Grating Spectroscopy Combined withaPhaseMask..........................................105 3.3.1 PrincipleofTransientGratingSpectroscopy..............105 3.3.2 Transient Grating Spectroscopy Combined with a Phase Mask:ExperimentalSetupandResults ..................107 3.4 Femtosecond Real-Time Pump-Probe Imaging Spectroscopy . . . . . . 109 3.4.1 Principle of Real-Time Pump-Probe Imaging Spectroscopy . 109 3.4.2 Experimental Demonstrations of Real-Time Pump-ProbeImagingSpectroscopy .................................112 References ......................................................117 4 Defects in Anatase Titanium Dioxide T. Sekiya and S. Kurita .......................................... 121 4.1 Introduction................................................121 4.2 GrowthofAnataseSingleCrystal .............................122 4.3 ControlofDefectStates......................................123 4.3.1 HeatTreatmentUnderOxygenPressure.................1234.3.2 Heat Treatment Under Hydrogen Atmosphere . . . . . . . . . . . . 124 4.4 PropertiesofAnatase........................................129 4.4.1 AbsorptionEdge......................................129 4.4.2 Photoluminescence....................................131 4.4.3 EPRSpectra.........................................132 4.4.4 Electric Conduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134 4.5 CarrierControlbyPhotoirradiation ...........................137 4.5.1 Photoconductivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137 4.5.2 EPR................................................138 References ......................................................140 5 Organic Radical 1,3,5-Trithia-2,4,6-Triazapentalenyl (TTTA) as Strongly Correlated Electronic Systems: Experiment and Theory J. Takeda, Y. Noguchi, S. Ishii, and K. Ohno........................ 143 5.1 Introduction................................................143 5.2 Crystalline Structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1445.3 Experimental ...............................................146 5.3.1 Paramagnetic Susceptibility andElectronSpinResonance...........................146 5.3.2 Reflectivity ..........................................150 5.3.3 PhotoinducedMagneticPhaseTransition ................151 5.4 ElectronicStructureCalculations..............................157 5.4.1 ResultsWithintheLDA...............................157 5.4.2 Breakdownof theLDA................................161 5.4.3 T -MatrixTheory .....................................162 5.4.4 Results in the T -MatrixTheory ........................164 5.4.5 ConcludingRemarks ..................................167 References ......................................................168 6 Ab Initio GW Calculations Using an All-Electron Approach S. Ishii, K. Ohno, and Y. Kawazoe ................................. 171 6.1 Introduction................................................171 6.2 Many-Body Perturbation Theory and GW Approximation . . . . . . . . 1726.3 ChoiceofBasis-SetFunction..................................175 6.4 ApplicationtoClustersandMolecules .........................176 6.4.1 Alkali-MetalClusters..................................176 6.4.2 Semiconductor Clusters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 178 6.4.3 Gallium Arsenide Clusters and Crystal . . . . . . . . . . . . . . . . . . 180 6.4.4 BenzeneMolecule.....................................183 6.4.5 Why Are LDA Eigenvalues of HOMO Level Shallower ThanExperiments? ...................................184 6.5 Self-Consistent GW vs. First Iterative GW (G0W0)..............184 6.6 Appendix  roofofWTIdentity ..............................1856.7 Summary ..................................................187 References ......................................................187 7 First-Principles Calculations Involving Two-Particle Excited States of Atoms and Molecules Using T -Matrix Theory Y. Noguchi, S. Ishii, and K. Ohno ................................. 1897.1 Background ................................................189 7.2 Methodology: T -MatrixTheory ...............................191 7.3 DoubleElectronAffinityofAlkali-MetalClusters................193 7.3.1 Introduction .........................................193 7.3.2 Effect of the Coulomb Interaction in the DEA Spectra . . . . . 193 7.3.3 Short-Range Repulsive Coulomb Interaction Within the T -MatrixTheory...........................195 7.3.4 Summary............................................196 7.4 Double IonizationEnergySpectra .............................196 7.4.1 Introduction .........................................196 7.4.2 Two-Valence-ElectronSystems .........................1987.4.3 InertGasAtoms......................................199 7.4.4 CO and C2H2 Molecules...............................200 7.4.5 Summary............................................202 7.5 Two-Electron Distribution Functions and Short-Range ElectronCorrelations ........................................202 7.5.1 Introduction .........................................202 7.5.2 Methodology.........................................204 7.5.3 Ar ..................................................204 7.5.4 CO .................................................206 7.5.5 CO2 ................................................208 7.5.6 C2H2 ................................................210 7.5.7 Summary............................................211 7.6 Summary ..................................................212 7.7 Appendix ..................................................213 7.7.1 Fourier Transformation of Green’s Function . . . . . . . . . . . . . . 2137.7.2 Fourier Transformation of K-Matrix ....................214 7.7.3 Fourier Transformation of T -Matrix.....................215 References ......................................................2168 Green’s Function Formulation of Electronic Transport at Nanoscale A.A. Farajian, O.V. Pupysheva, B.I. Yakobson, and Y. Kawazoe ....... 219 8.1 Introduction................................................219 8.2 Landauer’s Transport Formalism: The Green’s Function Implementation.............................................220 8.2.1 MultichannelLandauer’sFormula.......................220 8.2.2 SurfaceGreen’sFunctionMatchingMethod..............221 8.2.3 ScatteringMatrixandTransportProperties..............223 8.2.4 Alternative Formulation of the Total Conductance . . . . . . . . 226 8.3 CarbonNanotubeHeterostructures............................227 8.3.1 Conductance of Nanotubes with Vacancy or Pentagon–Heptagon Defects . . . . . . . . . . . . . . . . . . . . . . . . . 227 8.3.2 Doped Nanotube Junctions: Rectification and Novel Mechanism for Negative Differential Resistance . . . . . . . . . . . 230 8.3.3 Effects of Random Disorder on Transport of Nanotubes . . . . 2348.4 Functional Molecule Between Two Metallic Contacts . . . . . . . . . . . . 235 8.4.1 Transport Through Xylyl-Dithiol Molecule Attached toTwoGoldElectrodes ...............................235 8.4.2 Transport Through Benzene-Dithiol Molecule Attached toTwoGoldElectrodes ...............................238 8.5 Summary ..................................................239 References ......................................................2409 Self-Assembled Quantum Dot Structure Composed of III–V Compound Semiconductors K. Mukai ....................................................... 243 9.1 Introduction................................................243 9.2 ControlofQDStructurebyGrowthCondition..................244 9.2.1 ControlofGrowthParameters..........................244 9.2.2 CloselyStackedQDs ..................................246 9.2.3 QDBuriedinStrainedLayer...........................248 9.3 GrowthProcessofQDStructure..............................252 9.4 AnalysisofQDStructure ....................................256 9.4.1 GrazingIncidenceX-RayScattering.....................256 9.4.2 Scanning Tunneling Microscopy. . . . . . . . . . . . . . . . . . . . . . . . . 258 9.5 SummaryandPerspective....................................259 References ......................................................260 10 Potential-Tailored Quantum Wells for High- Performance Optical Modulators/SwitchesT. Arakawa and K. Tada ......................................... 263 10.1 Introduction................................................263 10.2 ParabolicPotentialQuantumWell ............................264 10.3 Graded-GapQuantumWell ..................................266 10.4 AsymmetricCoupledQuantumWell...........................268 10.5 IntermixingQuantumWell ...................................271 10.6 Summary ..................................................272 References ......................................................27211 Thermodynamic Properties of Materials Using Lattice-Gas Models with Renormalized Potentials R. Sahara, H. Mizuseki, K. Ohno, and Y. Kawazoe ................... 275 11.1 Introduction................................................275 11.2 SchemeofthePotentialRenormalization.......................276 11.3 ApplicationofthePotentialRenormalization ...................278 11.3.1 ApplicationtoMeltingBehaviorofSi ...................278 11.3.2 ApplicationtoCu–AuPhaseDiagram...................282 11.3.3 ApplicationtoTransitionandNobleMetals ..............286 11.3.4 Order–Disorder Phase Transition of L10 FePt Alloy Using the Renormalized Potential Combined withFirst-PrinciplesCalculations.......................287 11.4 Summary ..................................................289 References ......................................................28912 Optically Driven Micromachines for Biochip Application S. Maruo ....................................................... 291 12.1 Introduction................................................291 12.1.1 Two-Photon Microstereolithography for Production of3DMicromachines..................................29212.1.2 Assembly-Free, Single-Step Fabrication Process of MovableMicroparts...................................293 12.2 OpticallyDrivenMicromachines ..............................296 12.2.1 OpticalTrapping .....................................296 12.2.2 Optical Driving Method of Multiple Micromachines . . . . . . . 298 12.2.3 OptimizationofTime-DividedLaserScanning............300 12.2.4 CooperativeControlofMicromanipulators ...............302 12.2.5 OpticallyDrivenMicropump...........................303 12.2.6 ConceptofAll-OpticallyControlledBiochip..............307 12.3 ConclusionandFutureProspect ..............................307 References ......................................................308 13 Study of Complex Plasmas M. Shindo and O. Ishihara ........................................ 311 13.1 OverviewofComplexPlasmaResearch ........................311 13.2 ChargingofaDustParticleinaPlasma .......................312 13.3 Measurements of the Charge of Dust Particles Levitating inElectronBeamPlasma[12] ...................................313 13.4 Various Approaches to Plasma-Aided Design ofMicroparticlesSysteminIonFlow ..........................315 13.4.1 Analysis of Ion Trajectories Around a Dust Particle in Ion Flow[17] ............................................316 13.4.2 Wake Potential Formation to Bind Dust Particles Aligned Along Ion Flow . . . . . . . . . . . 318 13.4.3 Attractive Force Between Dust Particles Aligned Perpendicular toIonFlow[30]..........................320 13.5 Simulation Study of Cluster Design ofChargedDustParticles ....................................321 13.6 Complex Plasma ExperimentinCryogenicEnvironment[38] ................................323 13.7 Summary ..................................................325 References ......................................................326 Index ..........................................................329[ Last edited by hongliushu03 on 2012-6-14 at 20:34 ] |
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