| Chapter 1 |
SCATTEROMETERS |
| Chapter 2 |
SPECTROSCOPIC MEASUREMENTS |
| Chapter 3 |
ATMOSPHERIC OPTICS |
| Chapter 4 |
IMAGING THROUGH ATMOSPHERIC TURBULENCE |
| Chapter 5 |
ADAPTIVE OPTICS |
| Chapter 6 |
ACOUSTO-OPTIC DEVICES |
| Chapter 7 |
ELECTRO-OPTIC MODULATORS |
| Chapter 8 |
LIQUID CRYSTALS |
| Chapter 9 |
OPTICAL FIBER COMMUNICATION TECHNOLOGY AND SYSTEM OVERVIEW |
| Chapter 10 |
NONLINEAR EFFECTS IN OPTICAL FIBERS |
| Chapter 11 |
PHOTONIC CRYSTAL FIBERS |
| Chapter 12 |
INFRARED FIBERS |
| Chapter 13 |
SOURCES, MODULATORS, AND DETECTORS FOR FIBER OPTIC COMMUNICATION SYSTEMS |
| Chapter 14 |
OPTICAL FIBER AMPLIFIERS |
| Chapter 15 |
FIBER OPTIC COMMUNICATION LINKS (TELECOM, DATACOM, AND ANGLOG) |
| Chapter 16 |
FIBER-BASED COUPLERS |
| Chapter 17 |
FIBER BRAGG GRATINGS |
| Chapter 18 |
MICRO-OPTICS-BASED COMPONENTS FOR NETWORKING |
| Chapter 19 |
SEMICONDUCTOR OPTICAL AMPLIFIERS |
| Chapter 20 |
OPTICAL TIME-DIVISION MULTIPLEXED COMMUNICATION NETWORKS |
| Chapter 21 |
WDM FIBER-OPTIC COMMUNICATION NETWORKS |
| Chapter 22 |
SOLITONS IN OPTICAL FIBER COMMUNICATION SYSTEMS |
| Chapter 23 |
FIBER-OPTIC COMMUNICATION STANDARDS |
| Chapter 24 |
OPTICAL FIBER SENSORS |
| Chapter 25 |
HIGH-POWER FIBER LASERS AND AMPLIFIERS |
| Chapter 26 |
AN INTRODUCTION TO X-RAY AND NEUTRON OPTICS |
| Chapter 27 |
COHERENT X-RAY OPTICS AND MICROSCOPY |
| Chapter 28 |
REQUIREMENTS FOR X-RAY DIFFRACTION |
| Chapter 29 |
REQUIREMENTS FOR X-RAY FLUORESCENCE |
| Chapter 30 |
REQUIREMENTS FOR X-RAY SPECTROSCOPY |
| Chapter 31 |
REQUIREMENTS FOR MEDICAL IMAGING AND X-RAY INSPECTION |
| Chapter 32 |
REQUIREMENTS FOR NUCLEAR MEDICINE |
| Chapter 33 |
REQUIREMENTS FOR X-RAY ASTRONOMY |
| Chapter 34 |
EXTREME ULTRAVIOLET LITHOGRAPHY |
| Chapter 35 |
RAY TRACING OF X-RAY OPTICAL SYSTEMS |
| Chapter 36 |
X-RAY PROPERTIES OF MATERIALS |
| Chapter 37 |
REFRACTIVE X-RAY LENSES |
| Chapter 38 |
GRATINGS AND MONOCHROMATORS IN THE VUV AND SOFT X-RAY SPECTRAL REGION |
| Chapter 39 |
CRYSTAL MONOCHROMATORS AND BENT CRYSTALS |
| Chapter 40 |
ZONE PLATES |
| Chapter 41 |
MULTILAYERS |
| Chapter 42 |
NANOFOCUSING OF HARD X-RAYS WITH MULTILAYER LAUE LENSES |
| Chapter 43 |
POLARIZING CRYSTAL OPTICS |
| Chapter 44 |
IMAGE FORMATION WITH GRAZING INCIDENCE OPTICS |
| Chapter 45 |
ABERRATIONS FOR GRAZING INCIDENCE OPTICS |
| Chapter 46 |
X-RAY MIRROR METROLOGY |
| Chapter 47 |
ASTRONOMICAL X-RAY OPTICS |
| Chapter 48 |
MULTIFOIL X-RAY OPTICS |
| Chapter 49 |
PORE OPTICS |
| Chapter 50 |
ADAPTIVE X-RAY OPTICS |
| Chapter 51 |
THE SCHWARZSCHILD OBJECTIVE |
| Chapter 52 |
SINGLE CAPILLARIES |
| Chapter 53 |
POLYCAPILLARY X-RAY OPTICS |
| Chapter 54 |
X-RAY TUBE SOURCES |
| Chapter 55 |
SYNCHROTRON SOURCES |
| Chapter 56 |
LASER-GENERATED PLASMAS |
| Chapter 57 |
PINCH PLASMA SOURCES |
| Chapter 58 |
X-RAY LASERS |
| Chapter 59 |
INVERSE COMPTON X-RAY SOURCES |
| Chapter 60 |
INTRODUCTION TO X-RAY DETECTORS |
| Chapter 61 |
ADVANCES IN IMAGING DETECTORS |
| Chapter 62 |
X-RAY SPECTRAL DETECTION AND IMAGING |
| Chapter 63 |
NEUTRON OPTICS |
| Chapter 64 |
GRAZING-INCIDENCE NEUTRON OPTICS |
