Masers and Lasers: An Historical Approach, Second Edition

Masers and Lasers: An Historical Approach, Second Edition

by Mario Bertolotti

Hardcover(Revised)

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Overview

Masers and Lasers: An Historical Approach, Second Edition by Mario Bertolotti

Masers and Lasers: An Historical Approach examines the progress of research and practical use of lasers chronologically, covering the fundamental science in detail alongside fascinating biographical sketches of famous physicists and summaries of seminal papers. It supplies helpful drawings of prototype devices, conceptual diagrams to aid in understanding, and remarkable historical photographs. This Second Edition contains new chapters on ultrashort pulse lasers and nonlinear optics, incorporates the latest developments and insights from key scientists, and includes extensive updates on fiber lasers, amplifiers, ultraviolet and X-ray lasers, and plasmonic lasers.

Product Details

ISBN-13: 9781482217773
Publisher: Taylor & Francis
Publication date: 03/20/2015
Edition description: Revised
Pages: 502
Product dimensions: 6.20(w) x 9.30(h) x 1.30(d)

About the Author

Mario Bertolotti received his degree in physics from the University of Roma, Italy, and was full professor of physics and optics for the Engineering Faculty of the University of Roma "La Sapienza", Italy from 1970 until 2008. He is the author of more than 500 peer-reviewed publications. A major part of his research has been in lasers and their applications, as well as nonlinear optics and nano-optics. He is an elected fellow of the Institute of Physics, Optical Society of America, European Optical Society, Italian Physical Society, and Italian Society of Optics and Photonics, of which he was also the president.

Table of Contents

Foreword to the First Edition

Foreword to the Second Edition

Preface

Author

Introduction

Principle of Operation

The Devices

Masers

Lasers

Applications

Development

Note

Stimulated Emission: Could the Laser have been Built More than 80 Years Ago?

Stimulated Emission

Role of Stimulated Emission in the Theory of Light Dispersion

Experimental Proofs of Negative Dispersion

More on Negative Absorption

Notes

Intermezzo: Magnetic Resonance and Optical Pumping

Introduction

The Resonance Method with Molecular Beams

Magnetic Relaxation Phenomena in Solids

Magnetic Resonance: Bloch, Purcell, and Zavoisky

Bloch Equations

Experimental Proof of Population Inversion

The Concept of Negative Temperature

The Overhauser Effect

Spin Echo

Medical Application of Nuclear Magnetic Resonance (NMR)

Electronic Paramagnetic Resonance

Atomic Clocks

Optical Pumping

Notes

The Maser

Introduction

Weber’s Maser

Townes and the First Ammonia Maser

Basov and Prokhorov and the Soviet Approach to the Maser

The Three-Level Solid-State Maser

Optically Pumped Masers

The Hydrogen Maser

The Ancestor of the Free-Electron Laser

The Electron Cyclotron Maser

The Rydberg or Single-Photon Maser (Micromaser)

Two-Photon Maser

Maser Action in Nature

Notes

The Laser

Introduction

The Townes and Schawlow Proposal

Townes’ and Schawlow’s Idea

The Gordon Gould Story

The Dicke Coherence-Brightened Laser

Soviet Research

Notes

The First Lasers

Introduction

The Ruby Laser

The Four-Level Laser

The Neodymium Laser

The Gas Laser

The Cesium Laser

Laser Cavities

Further Progress in Gaseous Lasers

Neutral Atom Lasers

Ion Gas Lasers

Molecular Lasers

Excimer Lasers

The Liquid Laser: Dye and Chelate Lasers

The Chemical Laser

The Semiconductor Laser

Vertical-Cavity Surface-Emitting Laser Diodes (VCSELs)

Quantum Cascade Lasers

The Free-Electron Laser

Does the Laser Exist in Nature?

Notes

Laser Properties and Progresses in Novel Lasers

Introduction

Q-Switching

Modes in the He–Ne Laser

Mode Locking

Lamb’s Theory

Mode Selection and Frequency and Amplitude Stabilization

Tunable Solid-State Lasers

Distributed Feedback Lasers

Optical Amplifiers

Diode Pumped Solid-State Lasers

Notes

Nonlinear Optics

Introduction

The Prehistory of Nonlinear Optics

The First Experiments

Nonlinear Optics

Physical Origin of Optical Nonlinearities

Further Experiments in Nonlinear Optics

Optical Rectification

Optical Mixing

Parametric Oscillation and Amplification

Third-Order Effects

Down-Conversion and Entanglement

Nonlinearities in Optical Fibers

High Harmonics Generation

Multiphoton Ionization

Ultrashort Laser Pulses

Supercontinuum Generation

Notes

More Exotic Lasers

Introduction

Lasing Without Inversion

Random Lasers

Nanolasers

Plasmon Lasers

Spaser

One- and Two-Photon Laser

High-Power Lasers

High-Power Fiber Lasers

X- and Gamma-Ray Laser

Notes

The Statistical Properties of Light

Introduction

Introduction of the Concept of the Photon

Fluctuations of Radiant Energy

Bose and the Statistics of Radiation

A Few More Remarks on Bose–Einstein Condensation

Further Developments in the Theory of Fluctuations of Radiation Fields

The Hanbury Brown and Twiss Experiment

The Quantum Theory of Coherence

The Discussion of the Need for Quantum Optics

Experimental Studies of the Statistical Properties of Light

Polarized Thermal Light

Laser Light

Nonclassical States of Light and Single-Photon Sources

Notes

Subject Index

Author Index

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