DedicationForewordINTRODUCTIONCHAPTER 1. Nano-structural optoelectronic oscillators with the fiber-opticaldelay line1.1. Operation principle and functional diagram of OEO with FODL1.1.1. Optoelectronic oscillator1.1.2. Methodic conception and features of OEO theoretical investigation1.1.3. Semi-classical laser theory1.1.4. Semi-classical laser approximation1.1.5. A laser in OEO structure1.1.6. MZ modulator in OEO structure1.2. Technical features and advantages of OEO with external and direct modulation inoptions with self-heterodyne mixing1.3 Spontaneous laser and QDLD emission and its role in OEO noises' formation1.4 Hybrid utilization of up-to-date electro-optical elements and microwave elements inOEO1.5. OEO with self-heterodyne mixing as the oscillator containing the phase fluctuationcorrelator in the feedback loop1.6. Integration in future optical and optoelectronic systems1.6.1. New methods of optical and optoelectronic frequency control of the RFoscillators1.6.2. Nonlinearities in OEO1.6.3. Dispersion FODL in OEO1.6.4. Types of optoelectronic oscillators by the composition of modulated lightsource1.6.5. OEO division according to FOS topology1.7 Modern elements of OEO: a laser, the optical fiber, and a photo-detector1.7.1. A laser1.7.2. Optical resonators and the optical fiber1.7.3. Fiber lasers1.7.4. The optical modulator in OEO and modules1.7.5. Optical fibers for OEO1.7.6. Photo-detectors1.8. Comparison of OEO characteristics with other traditional oscillators1.8.1. Traditional electronic oscillators1.8.2. Q-factors of oscillator resonance systems1.8.3. Dimensions of oscillator resonance systems1.8.4. Phase noises and PSD of precision RF oscillations1.9. Modern optoelectronic methods for precision RF oscillation formation1.9.1. Commercial bulky and compact frequency standards with optical pumping oncesium and rubidium cells1.9.2. A synthesizer with the optical micro-resonator1.10. Conclusions6CHAPTER 2. Theoretical analysis OEO with the help of ordinary differentialequations2.1. Functional diagrams of OEO with direct and external modulation......................2.1.1. OEO with direct and external modulation2.1.2. Heterodyne reception and self-heterodyne mixing in OEO2.1.3. OEO with single optical sideband2.1.3. Equivalent diagrams with direct and external modulation for OEO with theMach-Zender modulator2.2. Mathematical model of autonomous OEO with differential FODL2.2.1. The system of two differential equations2.2.2. Simplified block-diagram and OEO abbreviated equations2 . 2 .3. Mathematical description of components: a laser, a photo-detector, anamplifier, a filter2.2.4. Symbolic equations and the Y-matrix of FODL2.3. The semi-classical laser equation and abbreviated differential equation of OEO2.3.1. The quasi-classical laser theory2.3.2. The wave differential equation of the laser2.3.3. The van-der Pol equation for the laser.2.3.4. Abbreviated laser equations for amplitude and phase2.3.5. Applicability condition for van-der Pol equation for the laser2.4. Laser differential equations for single-mode single-frequency regime2.4.1. Semi-classical differential equation of the laser2.4.2. The feedback loop in OEO2.4.3. Transfer functions of OEO optical components: a resonator, a modulator, theoptical
About the Author:

Alexander A. Bortsov was born in Moscow, completed his Ph.D. in Engineering, and graduated from MPEI. His Ph.D. thesis was on the theme "Optoelectronic oscillator with the QW laser diode" in 2005. He is the author of more than 40 scientific publications, among them 30 scientific papers, one book Quantum Opto-Electronic Oscillator, 3 USSR copyright certificates on invention, 4 Russian patents, and more than 20 technological reports on various conferences, including international ones. He was the first in Russia, who in 2004-2005 had got the generation of the optoelectronic oscillator with direct modulation in the microwave range (more than 8 GHz) and investigated of it experiment tally and theoretical in his Ph.D. thesis (2005). He is the first researcher in Russia in 2008-2009 to investigate the opto-electronic oscillator with the Mach-Zehnder modulator in the microwave range 8-10 Ghz. He delivers lectures to students on the fundamentals of the quantum electronics and quantum physics. He trains students in the probabilities theory, mathematical statistics, and many areas of the higher mathematics including mathematical methods of modeling in the MatLab system. Fields of current research: opto-electronic oscillator, photonics, lasers, QW lasers, phase noise, the probabilities theory, mathematical statistics, calculation methods in MatLab.

Yuri B. Il'in, born in 1939, Ph.D. in Engineering. Professional education: Moscow State Mining University, Electromechanical Faculty (1958-1959)/Moscow Power Engineering Institute (National Technical University), Radio Engineering Faculty (1959-1964)/Moscow State University, Faculty of Mechanics and Mathematics (1964-1968). He graduated from Radio Engineering Faculty of MPEI since 1964 just after graduation before he left this institute of his own accord in 1997. At the beginning, he worked on Department of Radio Transmitting Devices, where engaged in the construction of masers, and theoretical study of steadystate and dynamic behavior of a multimode lasers with non-homogeneously broadened spectral line and practical questions of development of fiber-optic communication lines. After graduation of Ph.D. course and defending a Ph.D. thesis in 1986, he worked on Department of Performing of Oscillations and Signals in Radio Engineering Faculty of MPEI. At the same time, he was with SIMVOL Ltd. Company in Moscow, Russia. Here he led the pioneering works on the creation of Optoelectronic Oscillators and Magneto-Infrared Laser Diode Therapeutic devices. Since 1997, he was with OPTEN Ltd. Company in Moscow, Russia. Here he worked as a Department of Education Programs manager until 2005. At the same time, he was engaged in creating, organizing, and conducting courses in Russia and the United States of America (USTTI) of advanced training for senior engineering personnel of electric power companies in Russia and a number of countries. These courses were devoted to the technology of laying fiber-optic communication cables overhead the phase wires of long-height high-voltage power lines. From 2005 to the present time he works as a freelancer scientist. His academic experience spans over 30 years. He worked as assistant professor, senior teacher and associate professor.

Sergey M. Smolskiy, born in 1946, Ph.D. in Engineering, Dr.Sc. in Engineering, full professor of Department of Radio Signals Formation and Processing of the National Research University "MPEI." He was engaged in theoretical and practical problems concerning the development of modern transmitting cascades including the short-range radar. In 1993, he defended the Doctor of Science thesis and now he works as a professor of Radio Signals Formation and Processing Dept. His academic experience spans over 40 years. The list of scientific works and inventions contains over 358 of scientific papers, 20 books, more than 100 technological reports on various conferences, including international ones. He is an active member of International Academy of Informatization, International Academy of Electrotechnical Sciences, International Academy of Sciences of Higher Educational Institutions, and IEEE. The scientific work for the latter 15 years is connected with conversion directions of short-range radar systems, radio measuring systems for fuel and energy complex, radio monitoring system, radar technology, radio transmitters, radio receivers, etc.