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This volume collects contributions related to selected presentations from the 12th IFAC Workshop on Time Delay Systems, Ann Arbor, June 28-30, 2015. The included papers present novel techniques and new results of delayed dynamical systems. The topical spectrum covers control theory, numerical analysis, engineering and biological applications as well as experiments and case studies. The target audience primarily comprises research experts in the field of time delay systems, but the book may also be beneficial for graduate students alike. .

Engineering. --- Dynamics. --- Ergodic theory. --- Vibration. --- Dynamical systems. --- Control engineering. --- Vibration, Dynamical Systems, Control. --- Dynamical Systems and Ergodic Theory. --- Control. --- Time dilatation. --- Time delay systems. --- Time delay control --- Time delay control systems --- Time delay controllers --- Time-delayed systems --- Clock paradox --- Dilatation of time --- Dilation of time --- Slowing of clocks --- Time dilation --- Twin paradox --- Feedback control systems --- Process control --- Special relativity (Physics) --- Differentiable dynamical systems. --- Control and Systems Theory. --- Differential dynamical systems --- Dynamical systems, Differentiable --- Dynamics, Differentiable --- Differential equations --- Global analysis (Mathematics) --- Topological dynamics --- Cycles --- Mechanics --- Sound --- Control engineering --- Control equipment --- Control theory --- Engineering instruments --- Automation --- Programmable controllers --- Ergodic transformations --- Continuous groups --- Mathematical physics --- Measure theory --- Transformations (Mathematics) --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Physics --- Statics

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High-energy astrophysics involves the study of exceedingly dynamic and energetic phenomena occurring near the most extreme celestial objects known to exist, such as black holes, neutron stars, white dwarfs, and supernova remnants. High-Energy Astrophysics provides graduate and advanced undergraduate students with the most complete, self-contained introduction to the subject available. This textbook covers all the essentials, weaving together the latest theory with the experimental techniques, instrumentation, and observational methods astronomers use to study high-energy radiation from space. Fulvio Melia introduces topics at the forefront of today's research, including relativistic particles, energetic radiation, and accretion disk theory. No other textbook offers such a thorough yet concise treatment of the key aspects of high-energy astrophysics--both theoretical and observational--or delves as deeply into modern detection techniques, satellite systems, and analytical and numerical modeling used by theoreticians. Amply illustrated, High-Energy Astrophysics is also ideal for researchers interested in the application of fundamental physical laws to understand how matter and radiation behave in regions of the universe where physical conditions are most extreme.Uniquely weaves together the theoretical and experimental aspects of this important branch of astronomy Features stunning images of the high-energy sky Fully describes the principal classes of high-energy sources, with an in-depth study of many archetypal objects within them Provides an excellent, self-contained resource for the classroom, written by a preeminent researcher and teacher in the field

Nuclear astrophysics. --- Astrophysics. --- Astrophysics --- Nuclear physics --- Astronomical physics --- Astronomy --- Cosmic physics --- Physics --- Acceleration. --- Accretion (astrophysics). --- Accretion disk. --- Active galactic nucleus. --- Amplitude. --- Angular momentum. --- Annihilation. --- Apsis. --- Arbitrarily large. --- BL Lac object. --- Bell's theorem. --- Binary star. --- Black hole. --- Boundary layer. --- Bremsstrahlung. --- Circular orbit. --- Classical mechanics. --- Classical physics. --- Compact star. --- Compton Gamma Ray Observatory. --- Compton scattering. --- Concept. --- Conceptual framework. --- Conjecture. --- Cosmic ray. --- Cygnus A. --- Cygnus X-1. --- Database. --- Dissipation. --- Doppler effect. --- Effective temperature. --- Emissivity. --- Event horizon. --- Four-dimensional space. --- Four-vector. --- Galactic Center. --- Galactic plane. --- Galaxy cluster. --- Gamma-ray burst. --- Gravitational energy. --- Initial condition. --- Instability. --- Interstellar medium. --- Intracluster medium. --- Luminosity function (astronomy). --- Magnetic field. --- Massive particle. --- Measurement. --- Milky Way. --- Minute and second of arc. --- Molecular cloud. --- Molecule. --- Neutron star. --- Nuclear reaction. --- Ontology. --- Optical depth. --- Orbital period. --- Particle physics. --- Phenomenon. --- Photon. --- Physical law. --- Physical quantity. --- Physicist. --- Pierre Auger Observatory. --- Pilot wave. --- Polytropic process. --- Positron. --- Power law. --- Prediction. --- Probability. --- Quantity. --- Quantum decoherence. --- Quantum mechanics. --- Quasar. --- ROSAT. --- Radiative cooling. --- Radiative flux. --- Roche lobe. --- Scattering. --- Spaceflight. --- Special relativity. --- Star. --- Supermassive black hole. --- Supernova. --- Synchrotron. --- Temperature. --- Theorem. --- Theory of relativity. --- Theory. --- Thin disk. --- Time dilation. --- Transonic. --- Virgo Cluster. --- Viscosity. --- Wave function. --- Wavelength. --- White dwarf. --- X-ray. --- XMM-Newton.