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200 10$aPress freedom and global politics$b[electronic resource] /$fDouglas A. Van Belle
210   $aWestport, Conn. $cPraeger$d2000
215   $a1 online resource (181 p.)
300   $aDescription based upon print version of record.
311   $a0-275-96790-5 
320   $aIncludes bibliographical references (p. [149]-165) and index.
327   $aPreliminaries; Contents; Illustrations; Preface; 1 Press Freedom and Global Politics; 2 Rational Foreign Policy Choice; 3 The Press and Foreign Policy; 4 Press Freedom and Militarized Disputes with John Oneal; 5 Press Freedom and Lethal International Conflicts; 6 A Monadic Effect for Press Freedom in Lethal International Conflicts; 7 Press Freedom and Cooperation; 8 Conclusions; Appendix Measuring Global Press Freedom; Bibliography; Index
330   $aThis text provides a systematic analysis of the effects that press freedom has on the conduct of international politics with particular reference to the foreign policy decision making environment.
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606   $aForeign news
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606   $aJournalism$xPolitical aspects
606   $aPress and politics
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615  0$aCommunication, International$xPolitical aspects.
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615  0$aFreedom of the press.
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200 00$aImaging at high angular resolution of stellar surfaces and close environment $eEvry Schatzman School 2017 /$fNicolas Nardetto, Yveline Lebreton, and Eric Lagadec, editors
210  1$a[Place of publication not identified] :$cEDP Sciences,$d[2019]
210  4$d©2019
215   $a1 online resource (158 pages)
225 0 $aEDP sciences proceedings
311 0 $a2-7598-2372-5 
320   $aIncludes bibliographical references.
327   $tFront matter --$tSponsors --$tScientific Organizing Committee --$tLocal Organizing Committee --$tFigures --$tList of participants --$tContents --$tPreface --$tI Diffraction-dominated observational astronomy --$tII Introduction to optical/IR interferometry: history and basic principles --$tIII Optical Long Baseline Interferometry
330   $aImaging at high angular resolution (HRA) is a ?ourishing discipline. High performance instruments like the spectro-polarimeter SPHERE at VLT/ESO has recently been implemented. A harvest of splendid results is continuously coming from interferometry with PIONIER, MATISSE, and now GRAVITY (all at VLTI/ESO), VEGA and JouFlu (CHARA), and at longer wavelengths with ALMA at VLTI/ESO and NOEMA/IRAM. The future is already underway with the very close launch of JWST/NASA, and the development of ELT at ESO. HRA provides a unique way to study regions of stellar formation, proto-planetary discs as well as the surfaces of stars and their environments. This volume offers lectures given by world experts in the ?eld during the EvrySchatzman School on Stellar Physics (EES 2017) held in Roscoff, France. The addressed topics include a course of introduction to optical/IR interferometry covering the history and basic principles, a course on diffraction-dominated observational astronomy, and a course presenting the principles and instrumentation of optical long baseline interferometry. This book will be a valuable reference for researchers and students in the coming years.
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200 10$aSpace-time symmetry and quantum Yang-Mills gravity $ehow space-time translational gauge symmetry enables the unification of gravity with other forces /$fJong-Ping Hsu, University of Massachusetts Dartmouth, USA, Leonardo Hsu, University of Minnesota, USA
210  1$aNew Jersey :$cWorld Scientific,$d[2013]
210  4$d?2013
215   $a1 online resource (xxxi, 253 pages) $cillustrations
225 1 $aAdvanced Series on Theoretical Physical Science ;$vVolume 11
300   $aDescription based upon print version of record.
311   $a981-4436-18-6 
311   $a1-299-95534-7 
320   $aIncludes bibliographical references and index.
327   $aPreface; Contents; Overview; About the Author; Part I. The Taiji Symmetry Framework Leonardo Hsu and Jong-Ping Hsu; 1. Space-Time Symmetry, Natural Units and Fundamental Constants; 1-1. Underpinnings; 1-2. Physical basis for the system of natural units; 1-3. Nature of the fundamental constants; References; 2. The Taiji Relativity Framework; 2-1. A new space-time framework; 2-2. Taiji relativity; 2-3. Operationalization of taiji time; 2-4. Conceptual difference between taiji relativity and Special Relativity; 2-5. A short digression: The role of a second postulate; References
327   $a3. The Principle of Limiting Continuation of Physical Laws and Coordinate Transformations for Frames with Constant Accelerations3-1. The principle of limiting continuation; 3-2. Constant linear acceleration: The Wu transformations; 3-3. Operational meaning of the space-time coordinates and 'constant-linear-acceleration'; 3-4. Singular walls and horizons in accelerated frames; 3-5. The Wu pseudo-group; 3-6. Relationship between the Wu and Møller transformations; 3-7. Experimental tests of the Wu transformations; References
327   $a4. Coordinate Transformations for Frames with Arbitrary Linear Accelerations and the Taiji Pseudo-Group4-1. Arbitrary Linear Accelerations: The Taiji Transformations; 4-2. Poincare? Metric Tensors for Arbitrary-Linear-Acceleration Frames; 4-3. New Properties of the Taiji Transformations; 4-4. Physical Implications; 4-5. Experimental Tests of the Taiji Transformations; References; 5. Coordinate Transformations for Rotating Frames and Experimental Tests; 5-1. Rotational taiji transformations; 5-2. Metric tensors for the space-time of rotating frames; 5-3. The rotational pseudo-group
327   $a5-4. Physical implications5-5. Experimental tests of the rotational taiji transformations; References; 6. Conservation Laws and Symmetric Energy-Momentum Tensors; 6-1. Conservation laws in the Taiji symmetry framework; 6-2. Symmetric energy-momentum tensors and variations of metric tensors intaiji space-time; 6-3. Integral forms of conservation laws in non-inertial frames; 6-4. Symmetry implications of global and local space-time translations; References; Part II. Quantum Yang-Mills Gravity Jong-Ping Hsu and Leonardo Hsu
327   $a7. The Yang-Mills-Utiyama-Weyl Framework for Internal and External Gauge Symmetries7-1. The Yang-Mills-Utiyama-Weyl framework; 7-2. The Levi-Civita connection and interpretations of Einstein gravity; 7-3. Weyl's parallel transport of scale and electromagnetic fields; 7-4. Curvatures on the connections; 7-5. Taiji symmetry and the space-time translational symmetry group T4; References; 8. Yang-Mills Gravity Based on Flat Space-time and Effective Curved Space-Time for Motions of Classical Objects; 8-1. Translational gauge transformations in taiji space-time
327   $a8-2. Translational gauge symmetry and the field-theoretic origin of effective metric tensors
330   $aYang-Mills gravity is a new theory, consistent with experiments, that brings gravity back to the arena of gauge field theory and quantum mechanics in flat space-time. It provides solutions to long-standing difficulties in physics, such as the incompatibility between Einstein's principle of general coordinate invariance and modern schemes for a quantum mechanical description of nature, and Noether's 'Theorem II' which showed that the principle of general coordinate invariance in general relativity leads to the failure of the law of conservation of energy. Yang-Mills gravity in flat space-time a
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615  0$aSpace and time.
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