Fundamentals of Picoscience

Klaus D. Sattler is a professor of physics at the University of Hawaii, where his research group obtained the first atomic-scale images of carbon nanotubes and produced the first carbon nanocones. His current work focuses on nanodiamonds, graphene quantum dots, and solar photocatalysis with nanoparticles for the purification of water. Dr. Sattler has been a recipient of the German Physical Society’s Walter Schottky Prize. He received a PhD from the Swiss Federal Institute of Technology (ETH).

Picoscale Detection: Picometer Detection by Adaptive Holographic Interferometry. Single Atom in an Optical Cavity: An Open Quantum System. Measurements of Subnanometer Molecular Layers. Electrostatic Potential Mapping in Electron Holography. Picoscale Characterization: Interferometric Measurements at the Picometer Scale. Protein Crystallography at Subatomic Resolution. X-Ray Optics: Toward Subnanometer Focusing. Picoscale Imaging: Imaging Small Molecules by Scanning Probe Microscopy. Neutron Holographic Imaging with Picometer Accuracy. Subnanometer-Scale Electron Microscopy Analysis. Atomic-Scale Imaging of Dielectric Point Defects. Picometer-Scale Dynamical Single-Molecule Imaging by High-Energy Probe. Scanning Probe Microscopy: Atomic-Resolution Frequency Modulation. Theory for Picoscale Scanning Tunneling Microscopy. Electrochemical STM: Atomic Structure of Metal/Electrolyte Interfaces. Cold-Atom Scanning Probe Microscopy: An Overview. Atomic Resolution Ultrafast Scanning Tunneling Microscope. Electron Orbitals: Imaging Atomic Orbitals with the Scanning Tunneling Microscopy. STM of Quantum Corrals. Attosecond Imaging of Molecular Orbitals. Picoscale Electron Density Analysis of Organic Crystals. Atomic-Scale Magnetism: Atomic-Scale Magnetism Studied by Spin-Polarized Scanning Tunneling Microscopy. Atomic and Molecular Magnets on Surfaces. Spin Inelastic Electron Spectroscopy for Single Magnetic Atoms. Picowires: Ferromagnetism in One-Dimensional Atomic Chains. Carbon Atomic Chains. Single-Atom Electromigration in Atomic-Scale Conductors. Picometer Positioning: Picometer Positioning Using a Femtosecond Optical Comb. Detection of Subnanometer Ultrasonic Displacements. Picometer-Scale Optical Noninterferometric Displacement Measurements. Direct Observation of the X-Ray-Induced Atomic Motion. Picoscale Devices: Mirrors with a Subnanometer Surface Shape Accuracy. Single Molecule Electronics. Single-Atom Transistors for Light. Carbon-Based Zero-, One-, and Two-Dimensional Materials for Device Application. Subnanometer Characterization of Nanoelectronic Devices. Chromophores for Picoscale Optical Computers. Index.