Progress in laser and electro-optics research / Vlasimir V. Kozlovsky, editor.

Format:

Book

Contributor:

Koslovskiy, Vladimir V.

Language:

English

Subjects (All):

Electrooptics.

Lasers.

Physical Description:

1 online resource (256 p.)

Edition:

1st ed.

Place of Publication:

New York : Nova Science Pub, c2010.

Language Note:

English

Summary:

It is expected that the advances in optics will revolutionise the 21st century as they began doing in the last quarter of the 20th. Such fields as communications, materials science, computing and medicine are leaping forward based on developments in optics. This book presents the research on optics and lasers from researchers spanning the globe.

Contents:

Intro

PROGRESS IN LASER AND ELECTRO-OPTICS RESEARCH

CONTENTS

PREFACE

Chapter1ADVANCESINTHEMEASUREMENTOFTHELENSE-THIRRINGEFFECTWITHSATELLITELASERRANGINGINTHEGRAVITATIONALFIELDOFTHEEARTH

Abstract

1.Introduction

2.TheSystematicErrorofGravitationalOriginintheLAGEOS-LAGEOSIITest

3.AConservativeEvaluationoftheImpactoftheGeopotentialontheLARESMission

4.Conclusions

References

Chapter 2LIDAR APPLICATION TO LITOSPHERE,HYDROSPHERE AND ATMOSPHERE

1. Introduction

2. Lidar Principle

2.1. Hard Target (Lithospheric Applications)

2.2. Dense Target (Hydrospheric Applications)

2.3. Transparent Target (Atmospheric Applications)

3. Lithospheric Applications

3.1. Laser Range-Finder for the Three-Dimensional Scan of UndergroundCavities

4. Hydrospheric Applications

4.1. Lidar Fluorosensor

4.2. Lidar Calibration of Satellite Imagery

4.2.1. Chlorophyll-a

4.2.2. Primary Productivity

4.2.3. Chromophoric Dissolved Organic Matter

5. Atmospheric Applications

5.1. Elastic Lidar

5.2. Correlation Lidar

5.3. Differential Absorption Lidar

6. Conclusion

Acknowledgements

Chapter 3ADVANCES IN LASER REMOTE SENSING OF FORESTS

Introduction

Forest Inventory

Monitoring for Reporting and Treaty Compliance

Attribute Estimation, Including Digital Elevation Models

Data Fusion

Discussion and Conclusions

Selected Silvilaser 2006 Papers

Chapter 4AN INSIGHT OF SUBCELLULAR LOCALIZATIONOF PITUITARY HORMONE MRNA: OBSERVATIONUNDER ELECTRON MICROSCOPY AND CONFOCALLASER SCANNING MICROSCOPY

Tissue Preparation

Biotinylation of Synthesized Oligonucleotide Probes for ISH

EM-ISH: Preembedding Method

EM-ISH: Postembedding Method.

Pathophysiological Studies on Changes in UltrastructuralExpression of PRL Mrna Induced by Estrogen andBromocriptine: Preembedding and Postembedding Method

Combined ISH and IHC at an Electron Microscopic Level

Combined ISH and IHC Using Qdots for the Detection of MRNAand Protein

Discussion

Conclusion

Chapter 5ENDOMETRIAL LASER INTRAUTERINETHERMOTHERAPY FOR THE CONSERVATIVESURGICAL TREATMENT OF DYSFUNCTIONALUTERINE BLEEDING

Materials and Methods

Results

Chapter6THEEFFECTSOFLASERPARAMETERSONELECTRON-ATOMCOLLISIONS

2.Laser-AssistedElectron-AtomCollisions

2.1.Laser-ModifiedWaveFunctionfortheFreeElectron

2.2.Laser-ModifiedWaveFunctionfortheTargetAtom

2.3.ElasticCollisionandExcitation

2.3.1.TheDirectScatteringAmplitudeinFirst-BornApproximation

2.3.2.TheDirectScatteringAmplitudeinSecond-BornApproximation

2.3.3.TheExchangeScatteringAmplitude

2.4.Laser-Assisted(e,2e)Collisions

3.Laser-NoiseEffectsandQuantumDissipation

3.1.Laser-NoiseEffectsonAtomicResponse

3.2.QuantumDissipationonAtomicResponse

4.AShortSummary

5.Appendix

Chapter 7REEL-TO-REEL PULSED LASER DEPOSITIONOF YBCO THICK FILMS

2. Long Coated Conductor-Reel to Reel Processing

2.1. MPMT-PLD Method

2.2. Textured Metallic Substrate

2.3. Long Tape R&amp

D in Srl-Nagoya Coated Conductor Center

2.4. 212.6 m YBCO Coated Conductor

2.5. Ic Distribution and Materials Yield

2.6. Thickness Dependence of Microcstructrue and Ic

2.7. Jc-B Characteristics

3. Artificial Pinning Center Introduction

3.1. Nano-Dot Method

3.2. Rebco Method

3.3. Mixed Target Method -Bamboo Structure and Nano-Epitaxy-

3.4. Nano-Degining

3.5. Thick Film with Artificial Pinning Center.

4. Conclusions

Acknowledgement

Chapter 8MICRO-COMPONENTS EVALUATIONUSING LASER INTERFEROMETRY

2. Development of Theory

2.1. Newton's Rings Technique

2.2. Optical Wedge Fringe Projection Technique

2.2.1. Fringe Formation by an Optical Wedge

2.2.2. Phase Shifting

2.2.3. Fringe Projection

2.3. Modified Michelson Interference Technique

3. Experimental Program

3.1. Newton's Rings Technique

3.2. Optical Wedge Fringe Projection Technique

3.3. Modified Michelson Interference Technique

4. Results and Discussion

4.1. Deformation Evaluation and Shape Identification

4.2. Angular Rotation Measurement

5. Concluding Remarks

INDEX

Blank Page.

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on print version record and CIP data provided by publisher; resource not viewed.

ISBN:

1-61122-837-9

OCLC:

676836155