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Book Cover
E-book
Author Apollonov, Victor V., author.

Title High-energy ecologically safe HF/DF lasers : physics of self-initiated volume discharge-based HF/DF lasers / Victor V. Apollonov, Sergey Yu. Kazantsev
Published Boca Raton, FL : CRC Press, Taylor & Francis Group, [2020]

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Description 1 online resource (xviii, 207 pages)
Contents Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Table of Contents -- Introduction -- 1. High-energy HF (DF) Lasers with Non-chain Chemical Reaction (Literature Review) -- 1.1. Chemical HF(DF) lasers. (The Principle of Operation and General Characteristics) -- 1.2. HF (DF) Lasers with the Initiation of Non-chain Chemical Reaction by Electric Discharge -- 1.3. The Problem of Increasing the Energy Characteristics of Non-chain HF Lasers -- 1.4. Search for Methods for SSVD formation in the Working Mixtures of HF(DF) Laser
1.5. P-P Non-chain HF (DF) Lasers with a High Pulse Repetition Rate -- 2. Self-initiated Volume Discharge in Working Environments of Non-chain HF(DF) Lasers -- 2.1. SIVD in Highly Electronegative Gases (Methods of Preparation and Basic Properties) -- 2.1.1. Description of Experimental Facilities and Experimental Techniques -- 2.1.2. General Characteristics of SIVD -- 2.1.3 Effect of UV Illumination on SSVD Characteristics -- 2.1.4. Investigation of the Stability of SIVD in SF[sub(6)] and Mixtures Based on it -- 2.1.5. Dynamics of the Formation of SIVD
2.1.6 Factors Affecting the Spatial Homogeneity of SIVD in SF[sub(6)] Mixtures with Hydrocarbons -- 2.1.7. Influence of the Inhomogeneity of the Electric Field in the Gap on the Stability of SIVD -- 2.2. Numerical Simulation of the SIVD in SF[sub(6)]-based gas Mixtures -- 2.2.1 Calculation of the Characteristics of SIVD in the Working Mixtures of HF Laser -- 2.2.2. Modelling of the Channel Structure of SIVD in SF[sub(6)] and mixtures based on it -- 2.3. Qualitative Analysis of the Mechanisms for Limiting the Current Density in the Diffuse Channel in SF[sub(6)]
3. Effect of Limiting Current Density in the Diffusion Channel -- 3.1. Study of the Characteristics of a single Diffuse Channel in SF[sub(6)] and Mixtures Based on it -- 3.1.1 Description of Experimental Installations and Experimental Techniques -- 3.1.2. Investigation of the Characteristics of a Single Diffuse Channel Unlimited by External Walls -- 3.1.3. Investigation of the Characteristics of the Diffuse Channel Bounded by External Walls -- 3.1.4. Numerical Simulation of Limited SSVD -- 3.1.5. Analysis of the Results
3.2. Characteristics of the SSVD Under Conditions of Strong Population of Vibrationally Excited States of SF[sub(6)] Molecules -- 3.2.1. Experimental Setup and Experimental Methods -- 3.2.2. Determination of CO[sub(2)] Laser Energy Absorbed in the Discharge Gap -- 3.2.3. Investigation of the effect of CO[sub(2)] Laser Radiation on the Combustion Voltage of SSVD in SF and Mixtures based on it -- 3.2.4. The Role of the Electron Attachment Process to Vibrationally Excited SF[sub(6)] Molecules in the Effect of Limiting the Current Density -- 3.2.5. Analysis of the Results
Summary This book explores new principles of Self-Initiating Volume Discharge for creating high-energy non-chain HF(DF) lasers, as well as the creation of highly efficient lasers with output energy and radiation power in the spectral region of 2.6-5 m. Today, sources of high-power lasing in this spectral region are in demand in various fields of science and technology including remote sensing of the atmosphere, medicine, biological imaging, precision machining and other special applications. These applications require efficient laser sources with high pulse energy, pulsed and average power, which makes the development of physical fundamentals of high-power laser creation and laser complexes of crucial importance. High-Energy Ecologically Safe HF/DF Lasers: Physics of Self-Initiated Volume Discharge-Based HF/DF Lasers examines the conditions of formation of SSVD, gas composition and the mode of energy input into the gas on the efficiency and radiation energy of non-chain HF(DF) lasers. Key Features: Shares research results on SSVD in mixtures of non-chain HF(DF) lasers Studies the stability and dynamics of the development of SSVD Discusses the effect of the gas composition and geometry of the discharge gap (DG) on its characteristics Proposes recommendations for gas composition and for the method of obtaining SSVD in non-chain HF(DF) lasers Develops simple and reliable wide-aperture non-chain HF(DF) lasers and investigates their characteristics Investigates the possibilities of expanding the lasing spectrum of non-chain HF(DF) lasers
Bibliography Includes bibliographical references and index
Notes 4. Mechanisms of Development of Plasma Instabilities of Self- initiated Volume Discharge in Working Mixtures of Non-chain HF(DF) Lasers
Victor V. Apollonov, Professor, General Physics Institute RAS, Russia. Apollonov V.V. is the leading specialist in the area of basic principles of creation and development of high power laser systems and high power laser radiation interaction with matter. He has made an outstanding input into creation and development of new branches of science - physical and technical fundamentals of high power laser optics and adaptive optics, investigation of physical processes in a high volume self-controlled volume discharges, creation of high power continuous wave, pulsed and high repetition rate pulse-periodic laser systems, high intensity laser radiation interaction with matter, high power laser application for an effective protection of valuable objects and water surface cleaning from oil films, medical applications for UV lasers. Recent results of his investigations related to the laser diode arrays phase-locking, mechanisms of shock waves merging for a rockets launch by high repetition rate pulse-periodic laser light, super long conductive channel based on the electrical breakdown in a dust plasma produced by mechanism of ablation, high repetition rate optical pulsating discharge applications, space debris elimination by laser, scalable mono-module disk laser and high power laser applications in the Arctic are under very intensive implementation in Russia and abroad. He is the author of more than 23 books, 800 presentations and 148 patents, as well as 954 journal articles. Apollonov V.V. is a high profile scientist and well known around all over the world, for his more than 49 years of international scientific activity, he has participated and organized more than 60 international conferences, symposiums and workshops, and prepared 32 doctoral candidates in physics and mathematics. For the last 5 years his scientific group has fulfilled more than 60 R and D contracts with customers from Japan, UK, Germany, France, China, Korea, Singapore and USA. He is the General Director of "Energomashtechnika" Ltd. Apollonov V.V. is the member of European and American Physical Society, SPIE, AIAA, American Society for QE and the member of specialized scientific council of Russia. He is a full member of Russian Academy of Natural Science and Academy of Engineering Sciences, member of the Presidium RANS. He is the laureate of State Prize of USSR (1982), of Russia (2001) and ECOWORLD-2017 International prize
Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force. WlAbNL
Online resource; title from digital title page (viewed on May 19, 2020)
Subject Gas lasers.
High power lasers.
Electric discharges through gases.
TECHNOLOGY -- Lasers.
SCIENCE -- Chemistry -- Physical & Theoretical.
SCIENCE -- Physics.
Gas lasers
Electric discharges through gases
High power lasers
Physics
Form Electronic book
Author Kazantsev, Sergey Yu., author
LC no. 2021761829
ISBN 9781000066173
1000066177
9781003041962
1003041965
9781000066197
1000066193
9781000066210
1000066215