Harnessing light : optical science and engineering for the 21st century / Committee on Optical Science and Engineering ..., National Research Council.

Format:

Book

Author/Creator:

National Research Council (U.S.). Committee on Optical Science and Engineering.

Contributor:

National Research Council (U.S.). Board on Physics and Astronomy.

National Research Council (U.S.). National Materials Advisory Board.

National Research Council (U.S.). Commission on Physical Sciences, Mathematics, and Resources.

National Research Council (U.S.). Commission on Engineering and Technical Systems.

Language:

English

Subjects (All):

Photonics.

Optics--Industrial applications.

Optics.

Optical instruments.

Engineering instruments.

Optical communications.

Physical Description:

1 online resource (357 p.)

Edition:

1st ed.

Place of Publication:

Washington, D.C. : National Academy Press, 1998.

Language Note:

English

Summary:

Optical science and engineering affect almost every aspect of our lives. Millions of miles of optical fiber carry voice and data signals around the world. Lasers are used in surgery of the retina, kidneys, and heart. New high-efficiency light sources promise dramatic reductions in electricity consumption. Night-vision equipment and satellite surveillance are changing how wars are fought. Industry uses optical methods in everything from the production of computer chips to the construction of tunnels. Harnessing Light surveys this multitude of applications, as well as the status of the optics industry and of research and education in optics, and identifies actions that could enhance the field's contributions to society and facilitate its continued technical development.

Contents:

Harnessing Light

Copyright

Preface

Acknowledgment of Reviewers

Contents

Executive Summary: Introduction to the Field and the Issues

THE FIELD OF OPTICS

THE REPORT

Optics and National Needs

Information Technology and Telecommunications

Health Care and the Life Sciences

Optical Sensing, Lighting, and Energy

Optics in Manufacturing

National Defense

Manufacturing of Optical Systems and Components

Education and Research

Overview

OPTICS: A PERVASIVE ENABLER

TRENDS AND DEVELOPMENTS

Manufacturing of Optical Components and Systems

Research and Education

KEY CONCLUSIONS AND RECOMMENDATIONS

A VISION OF THE FUTURE

1 Optics in Information Technology and Telecommunications

INFORMATION TRANSPORT

Long-Distance Transmission

Undersea Transmission

Terrestrial Systems

Fiber to the Home

Analog Lightwave Transmission

Cable Television

Remote Antennas

Optical Space Communications

INFORMATION PROCESSING

Optical Data Links

Optical Networking and Switching

Switching

WDM Networks

High-Density Optical Switching

All-Optical Switching

Optical Image Processing and Computing

Overall Issues

OPTICAL STORAGE

Market Size and Current Trends

Trends in Storage Technologies

Education Issues

International Competitiveness

Key Unresolved Issues

Opportunities, Challenges, and Obstacles

DISPLAYS

Medium-Sized Displays.

Small Displays

Projection Displays

Very Large Displays

Military and Avionics Displays

Educational and R&amp

D Issues

SUMMARY AND RECOMMENDATIONS

Information Transport

Processing

Data Links

General

Storage

Displays

2 Optics in Health Care and the Life Sciences

SURGERY AND MEDICINE

Introduction of Lasers

Understanding the Interaction of Light with Tissue

Minimally Invasive Therapy

Advanced Therapeutic Applications of Lasers

Laser Refractive Surgery

Cardiovascular Applications

Photodynamic Therapy

Optical Diagnostic Techniques

Blood Monitoring

Optical Tumor Detection

Imaging and Spectroscopy in Scattering Media

Optical Coherence Tomography

Laser-Hyperpolarized Gases for Magnetic Resonance Imaging

Feedback Control of Therapeutic Lasers

Nontechnical Considerations

TOOLS FOR BIOLOGY

Visualization Techniques

Confocal Scanning Laser Microscopy

Two-Photon Microscopy

Nonimaging Surface Microscopies

Development of Molecular Probes

Measurement and Analysis Techniques

Flow Cytometry

Bioengineered Fluorescent Indicators

Micromanipulation Techniques

BIOTECHNOLOGY

DNA Analysis

Pharmaceutical Screening

Surgery and Medicine

Tools for Biology

Biotechnology

REFERENCES

3 Optical Sensing, Lighting, and Energy

OPTICAL SENSORS AND IMAGING SYSTEMS

Environmental and Atmospheric Monitoring

Open-Path Gas Monitoring

Lidar Remote Sensing

Optical Environmental Biosensors

Earth and Global Surface Monitoring

Atmospheric and Global Climate Change

Earth's Resources and Weather

Astronomy and Planetary Probes

New Astronomical Telescopes

Planetary and Space Probes

Industrial Chemical Sensors.

Digital, Video, and Thermal Imaging Cameras

Law Enforcement and Security

Surveillance

Drug and Explosives Detection

Forensics and Evidence Examination

Common Everyday Optical Sensors

LIGHTING

Lighting History, Future Directions, and Standards

New Lighting Sources and Distribution Systems

Conventional Lighting (Incandescent, Fluorescent, and High-Intensity Discharge) and Fixtures

Sulfur-Dimer (Microwave Discharge) Lamps

Routing of Light by Fiber-Optic Cables or Hollow Pipes

Controlled Light-Reflecting Windows

LED Lighting

Lasers and Lighting in Live Entertainment

OPTICAL SENSORS AND LIGHTING IN TRANSPORTATION

Aircraft Applications

Automobile Applications

ENERGY

Inertial Confinement Fusion Using Lasers

Laser Isotope Separation of Uranium for Nuclear Energy

Space Solar Cells

Terrestrial Solar Cells

Solar Thermal Energy

Optical Sensors and Imaging Systems

Lighting

Optical Sensors and Lighting in Transportation

Energy

4 Optics in National Defense

SURVEILLANCE

NIGHT VISION

LASER SYSTEMS OPERATING IN THE ATMOSPHERE AND IN SPACE

Laser Range Finders, Designators, Jammers, and Communicators

Laser Weapons

FIBER-OPTIC SYSTEMS

SPECIAL TECHNIQUES

Chemical and Biological Species Detection

Laser Gyros for Navigation

Optical Signal Processing

5 Optics in Industrial Manufacturing

USE OF LIGHT TO PERFORM MANUFACTURING

Photolithography

Exposure Tools

Photo Masks

Photoresist

Future of Photolithography

Laser Materials Processing

Welding Applications

Cutting and Drilling Applications

Surface Hardening Applications

Industrial Lasers Market Perspective

The Precision Laser Machining Consortium.

Rapid Prototyping and Manufacturing Using Optics

USE OF OPTICS TO CONTROL MANUFACTURING

Metrology

Machine Vision

Sensors

SPECIFIC INDUSTRIAL APPLICATIONS

Automobile Manufacturing

The Semiconductor Integrated Circuit Industry

Display Manufacturing

The Chemical Industry

Aircraft Manufacturing

The Construction Industry

The Printing Industry

INCREASING USE OF OPTICS IN INDUSTRIAL MANUFACTURING

6 Manufacturing Optical Components and Systems

INTRODUCTION

A Brief History

An Overview of the Industry Today

LOW-VOLUME MANUFACTURING OF SPECIALTY OPTICS

Spherical Lenses

Aspheres

Computer-Controlled Deterministic Grinding and Polishing

Diffractive Elements

Optical Coatings

Optical Glasses, Polymers, and Specialty Materials

Case Study: Photolithography Equipment

Lens Materials Issues

Challenges for Next-Generation Photolithography Equipment

Case Study: Optics for the National Ignition Facility

Key Technical Challenges

HIGH-VOLUME MANUFACTURING OF OPTICS

Optical Fiber, Fiber Devices, and Waveguides

Silica Optical Fiber

Nonsilica Optical Fiber

Fiber Devices

Planar Waveguide Devices

Semiconductor-Based Optoelectronic Components

Components for Long-Distance Transmission Systems

Data Communications Links

Through-the-Air Infrared Links

Semiconductor Lasers

Visible LEDs

Imaging Arrays

Laser and Waveguide Packaging

CROSSCUTTING ISSUES

Optical Design and the Impact of Increased Computer Power

Role of Metrology

Standards

Size and Composition of the Optics Industry

7 Optics Research and Education

RESEARCH OPPORTUNITIES

Quantum, Atomic, and Biological Optics

Control of Atoms by Light.

Fundamental Quantum Limits of Measurement

Light in Biology

Femtosecond Optics

High-Intensity Laser-Matter Interactions

Lasers in Chemistry

Technology of Femtosecond Lasers

Technology Applications

Semiconductor and Advanced Solid-State Lasers

Laser Sources

Semiconductor Laser Diodes

Advanced Solid-State Lasers

Advanced Materials for the Generation and Control of Light

Materials for Nonlinear Frequency Conversion

Semiconductor Quantum-Well Materials

Photonic Bandgap Materials

Materials for Shaping and Focusing Optical Radiation

Materials Research and Development Opportunities

Extreme Ultraviolet and X-Ray Optics

X-Ray Microscopy

EUV and X-Ray Lithography

X-Ray Optics and Sources

EDUCATION IN OPTICS

U.S. Optics Education Programs

Approaches to Academic Programs in Optics

Continuing Education

Broad Issues

Research Opportunities

Education in Optics

Appendixes

A Collected Recommendations

Major Recommendations Sorted by Chapter

Optics in Information Technology and Telecommunications

Optics in Health Care and the Life Sciences

Optics in National Defense

Optics in Industrial Manufacturing

Manufacturing Optical Components and Systems

Optics Research and Education

Major Recommendations Sorted by Intended Actor

Department of Defense (Including DARPA)

National Science Foundation

Department of Commerce (Including NIST)

Department of Energy

National Institutes of Health

Environmental Protection Agency

Federal Agencies in General.

U.S. Congress.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references.

ISBN:

9786610210626

9780309174398

0309174392

9781280210624

1280210621

9780309538848

030953884X

9780585024530

0585024537

OCLC:

42329077