This book introduces the theory and research methods of partially coherent optical, points out the significance of this study, analyzes the basic theories involved in partially coherent light, and explains the complete coherence of laser is not a necessary condition for good directivity, and partially spatially coherent optical sources can also produce the same far-field intensity distribution as lasers. This type of beam with good directivity but only partial spatial coherence is called a Gaussian Schell model beam, which can be used as a physical model to describe multimode lasers under…mehr
This book introduces the theory and research methods of partially coherent optical, points out the significance of this study, analyzes the basic theories involved in partially coherent light, and explains the complete coherence of laser is not a necessary condition for good directivity, and partially spatially coherent optical sources can also produce the same far-field intensity distribution as lasers. This type of beam with good directivity but only partial spatial coherence is called a Gaussian Schell model beam, which can be used as a physical model to describe multimode lasers under certain conditions. This book is applicable to the large number of engineers and technicians involved in wireless optical communication and college teachers. It can also be used as a teaching material for graduate students and senior undergraduates in related fields.
Produktdetails
Produktdetails
Optical Wireless Communication Theory and Technology
Academician Ke Xizheng is a well-known expert in the field of optical wireless communication, a foreign academician of the Russian Academy of Natural Sciences, a famous teaching teacher in Shaanxi Province, a member of the Chinese Institute of Electronics, an expert in the evaluation of national science and technology awards, and a member of the Disciplinary Evaluation Group of the Third Academic Degree Committee of Shaanxi Province. For more than 20 years, he has actively explored and is not afraid to move forward; he has worked quietly on the road of teaching and educating people and has not forgotten his mission. Since 2001, he has won 20 provincial and ministerial science and technology awards, more than 30 invention patents authorized by the state, published more than 20 monographs in Science Press and Springer Press, and published more than 400 academic papers. and more than 10 journal editorial board members, and a part-time job in more than 10 academic groups including the Chinese Institute of Electronics, enjoying a high reputation in the field of electronic information.
Inhaltsangabe
Introduction.- Light Intensity Distribution and Beam Expansion.- Beam Drift.- Light Intensity Flicker and Angle of Arrival Fluctuation.- Angular Reflector Return Intensity Characteristics.- Polarization Characteristics of Partially Coherent Beams in Atmospheric Turbulence.- Influence of Atmospheric Turbulence Scale on Partially Coherent Optical Transport Properties.- The Broadening of Pulsed Beams Traveling Horizontally in Atmospheric Turbulence.- Propagation of Partially Coherent Vortex Beams in Atmospheric Turbulence.- Propagation of Array Beam in Atmospheric Turbulence.- Effect of Non-Kolmogorov Atmospheric Turbulence on Radially Partially Coherent Arrays.- Speckle Characteristics of Partially Coherent Beams.
Introduction.- Light Intensity Distribution and Beam Expansion.- Beam Drift.- Light Intensity Flicker and Angle of Arrival Fluctuation.- Angular Reflector Return Intensity Characteristics.- Polarization Characteristics of Partially Coherent Beams in Atmospheric Turbulence.- Influence of Atmospheric Turbulence Scale on Partially Coherent Optical Transport Properties.- The Broadening of Pulsed Beams Traveling Horizontally in Atmospheric Turbulence.- Propagation of Partially Coherent Vortex Beams in Atmospheric Turbulence.- Propagation of Array Beam in Atmospheric Turbulence.- Effect of Non-Kolmogorov Atmospheric Turbulence on Radially Partially Coherent Arrays.- Speckle Characteristics of Partially Coherent Beams.
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