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8.05 Quantum Physics II (MIT) 8.05 Quantum Physics II (MIT)

Description

This course, along with the next course in this sequence (8.06, Quantum Physics III) in a two-course sequence covering quantum physics with applications drawn from modern physics. General formalism of quantum mechanics: states, operators, Dirac notation, representations, measurement theory. Harmonic oscillator: operator algebra, states. Quantum mechanics in three-dimensions: central potentials and the radial equation, bound and scattering states, qualitative analysis of wavefunctions. Angular momentum: operators, commutator algebra, eigenvalues and eigenstates, spherical harmonics. Spin: Stern-Gerlach devices and measurements, nuclear magnetic resonance, spin and statistics. Addition of angular momentum: Clebsch-Gordan series and coefficients, spin systems, and allotropic forms of hydrogen This course, along with the next course in this sequence (8.06, Quantum Physics III) in a two-course sequence covering quantum physics with applications drawn from modern physics. General formalism of quantum mechanics: states, operators, Dirac notation, representations, measurement theory. Harmonic oscillator: operator algebra, states. Quantum mechanics in three-dimensions: central potentials and the radial equation, bound and scattering states, qualitative analysis of wavefunctions. Angular momentum: operators, commutator algebra, eigenvalues and eigenstates, spherical harmonics. Spin: Stern-Gerlach devices and measurements, nuclear magnetic resonance, spin and statistics. Addition of angular momentum: Clebsch-Gordan series and coefficients, spin systems, and allotropic forms of hydrogenSubjects

General formalism of quantum mechanics: states | General formalism of quantum mechanics: states | operators | operators | Dirac notation | Dirac notation | representations | representations | measurement theory | measurement theory | Harmonic oscillator: operator algebra | Harmonic oscillator: operator algebra | states | states | Quantum mechanics in three-dimensions: central potentials and the radial equation | Quantum mechanics in three-dimensions: central potentials and the radial equation | bound and scattering states | bound and scattering states | qualitative analysis of wavefunctions | qualitative analysis of wavefunctions | Angular momentum: operators | Angular momentum: operators | commutator algebra | commutator algebra | eigenvalues and eigenstates | eigenvalues and eigenstates | spherical harmonics | spherical harmonics | Spin: Stern-Gerlach devices and measurements | Spin: Stern-Gerlach devices and measurements | nuclear magnetic resonance | nuclear magnetic resonance | spin and statistics | spin and statistics | Addition of angular momentum: Clebsch-Gordan series and coefficients | Addition of angular momentum: Clebsch-Gordan series and coefficients | spin systems | spin systems | allotropic forms of hydrogen | allotropic forms of hydrogen | Angular momentum | Angular momentum | Harmonic oscillator | Harmonic oscillator | operator algebra | operator algebra | Spin | Spin | Stern-Gerlach devices and measurements | Stern-Gerlach devices and measurements | central potentials and the radial equation | central potentials and the radial equation | Clebsch-Gordan series and coefficients | Clebsch-Gordan series and coefficients | quantum physics | quantum physicsLicense

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See all metadata6.453 Quantum Optical Communication (MIT) 6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and pola This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and polaSubjects

Quantum optics: Dirac notation quantum mechanics | Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | harmonic oscillator quantization | number states | number states | coherent states | coherent states | and squeezed states | and squeezed states | radiation field quantization and quantum field propagation | radiation field quantization and quantum field propagation | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | beam splitters | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | heterodyne detection | heterodyne detection | and homodyne detection. Second-order nonlinear optics: phasematched interactions | and homodyne detection. Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | optical parametric amplifiers | generation of squeezed states | generation of squeezed states | photon-twin beams | photon-twin beams | non-classical fourth-order interference | non-classical fourth-order interference | and polarization entanglement. Quantum systems theory: optimum binary detection | and polarization entanglement. Quantum systems theory: optimum binary detection | quantum precision measurements | quantum precision measurements | quantum cryptography | quantum cryptography | and quantum teleportation. | and quantum teleportation.License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata6.453 Quantum Optical Communication (MIT) 6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and pola This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and polaSubjects

Quantum optics: Dirac notation quantum mechanics | Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | harmonic oscillator quantization | number states | number states | coherent states | coherent states | and squeezed states | and squeezed states | radiation field quantization and quantum field propagation | radiation field quantization and quantum field propagation | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | beam splitters | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | heterodyne detection | heterodyne detection | and homodyne detection. Second-order nonlinear optics: phasematched interactions | and homodyne detection. Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | optical parametric amplifiers | generation of squeezed states | generation of squeezed states | photon-twin beams | photon-twin beams | non-classical fourth-order interference | non-classical fourth-order interference | and polarization entanglement. Quantum systems theory: optimum binary detection | and polarization entanglement. Quantum systems theory: optimum binary detection | quantum precision measurements | quantum precision measurements | quantum cryptography | quantum cryptography | and quantum teleportation. | and quantum teleportation.License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata6.453 Quantum Optical Communication (MIT) 6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and quantum field propagation; P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle; beam splitters; phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection, heterodyne detection, and homodyne detection.&a This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and quantum field propagation; P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle; beam splitters; phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection, heterodyne detection, and homodyne detection.&aSubjects

Quantum optics: Dirac notation quantum mechanics | Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | harmonic oscillator quantization | number states | coherent states | and squeezed states | number states | coherent states | and squeezed states | radiation field quantization and quantum field propagation | radiation field quantization and quantum field propagation | P-representation and classical fields | P-representation and classical fields | Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | beam splitters | phase-insensitive and phase-sensitive amplifiers | phase-insensitive and phase-sensitive amplifiers | Quantum photodetection: direct detection | heterodyne detection | and homodyne detection | Quantum photodetection: direct detection | heterodyne detection | and homodyne detection | Second-order nonlinear optics: phasematched interactions | Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | optical parametric amplifiers | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement | Quantum systems theory: optimum binary detection | Quantum systems theory: optimum binary detection | quantum precision measurements | quantum precision measurements | quantum cryptography | quantum cryptography | quantum teleportation | quantum teleportationLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata17.584 Civil-Military Relations (MIT) 17.584 Civil-Military Relations (MIT)

Description

This course centers on mechanisms of civilian control of the military. Relying on the influential texts of Lasswell, Huntington, and Finer, the first classes clarify the basic tensions between the military and civilians. A wide-ranging series of case studies follows. These cases are chosen to create a field of variation that includes states with stable civilian rule, states with stable military influence, and states exhibiting fluctuations between military and civilian control. The final three weeks of the course are devoted to the broader relationship between military and society. This course centers on mechanisms of civilian control of the military. Relying on the influential texts of Lasswell, Huntington, and Finer, the first classes clarify the basic tensions between the military and civilians. A wide-ranging series of case studies follows. These cases are chosen to create a field of variation that includes states with stable civilian rule, states with stable military influence, and states exhibiting fluctuations between military and civilian control. The final three weeks of the course are devoted to the broader relationship between military and society.Subjects

Civil | Civil | Military | Military | relations | relations | mechanisms | mechanisms | civilian control | civilian control | Lasswell | Lasswell | Huntington | Huntington | Finer | Finer | case studies | case studies | states | states | civilian rule | civilian rule | society | society | United States | United States | Soviet Union | Soviet Union | Great Purge | Great Purge | Latin America | Latin America | Turkey | Turkey | Pakistan | Pakistan | Japan | Japan | Africa | Africa | Multiethnic States | Multiethnic StatesLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata8.05 Quantum Physics II (MIT) 8.05 Quantum Physics II (MIT)

Description

Together, this course and 8.06: Quantum Physics III cover quantum physics with applications drawn from modern physics. Topics covered in this course include the general formalism of quantum mechanics, harmonic oscillator, quantum mechanics in three-dimensions, angular momentum, spin, and addition of angular momentum. Together, this course and 8.06: Quantum Physics III cover quantum physics with applications drawn from modern physics. Topics covered in this course include the general formalism of quantum mechanics, harmonic oscillator, quantum mechanics in three-dimensions, angular momentum, spin, and addition of angular momentum.Subjects

General formalism of quantum mechanics: states | General formalism of quantum mechanics: states | operators | operators | Dirac notation | Dirac notation | representations | representations | measurement theory | measurement theory | Harmonic oscillator: operator algebra | Harmonic oscillator: operator algebra | states | states | Quantum mechanics in three-dimensions: central potentials and the radial equation | Quantum mechanics in three-dimensions: central potentials and the radial equation | bound and scattering states | bound and scattering states | qualitative analysis of wavefunctions | qualitative analysis of wavefunctions | Angular momentum: operators | Angular momentum: operators | commutator algebra | commutator algebra | eigenvalues and eigenstates | eigenvalues and eigenstates | spherical harmonics | spherical harmonics | Spin: Stern-Gerlach devices and measurements | Spin: Stern-Gerlach devices and measurements | nuclear magnetic resonance | nuclear magnetic resonance | spin and statistics | spin and statistics | Addition of angular momentum: Clebsch-Gordan series and coefficients | Addition of angular momentum: Clebsch-Gordan series and coefficients | spin systems | spin systems | allotropic forms of hydrogen | allotropic forms of hydrogen | Angular momentum | Angular momentum | Harmonic oscillator | Harmonic oscillator | operator algebra | operator algebra | Spin | Spin | Stern-Gerlach devices and measurements | Stern-Gerlach devices and measurements | central potentials and the radial equation | central potentials and the radial equation | Clebsch-Gordan series and coefficients | Clebsch-Gordan series and coefficients | quantum physics | quantum physics | 8. Quantum mechanics in three-dimensions: central potentials and the radial equation | 8. Quantum mechanics in three-dimensions: central potentials and the radial equation | and allotropic forms of hydrogen | and allotropic forms of hydrogenLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataDescription

This course, along with the next course in this sequence (8.06, Quantum Physics III) in a two-course sequence covering quantum physics with applications drawn from modern physics. General formalism of quantum mechanics: states, operators, Dirac notation, representations, measurement theory. Harmonic oscillator: operator algebra, states. Quantum mechanics in three-dimensions: central potentials and the radial equation, bound and scattering states, qualitative analysis of wavefunctions. Angular momentum: operators, commutator algebra, eigenvalues and eigenstates, spherical harmonics. Spin: Stern-Gerlach devices and measurements, nuclear magnetic resonance, spin and statistics. Addition of angular momentum: Clebsch-Gordan series and coefficients, spin systems, and allotropic forms of hydrogenSubjects

General formalism of quantum mechanics: states | operators | Dirac notation | representations | measurement theory | Harmonic oscillator: operator algebra | states | Quantum mechanics in three-dimensions: central potentials and the radial equation | bound and scattering states | qualitative analysis of wavefunctions | Angular momentum: operators | commutator algebra | eigenvalues and eigenstates | spherical harmonics | Spin: Stern-Gerlach devices and measurements | nuclear magnetic resonance | spin and statistics | Addition of angular momentum: Clebsch-Gordan series and coefficients | spin systems | allotropic forms of hydrogen | Angular momentum | Harmonic oscillator | operator algebra | Spin | Stern-Gerlach devices and measurements | central potentials and the radial equation | Clebsch-Gordan series and coefficients | quantum physicsLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and polaSubjects

Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | number states | coherent states | and squeezed states | radiation field quantization and quantum field propagation | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | heterodyne detection | and homodyne detection. Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement. Quantum systems theory: optimum binary detection | quantum precision measurements | quantum cryptography | and quantum teleportation.License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and quantum field propagation; P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle; beam splitters; phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection, heterodyne detection, and homodyne detection.&aSubjects

Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | number states | coherent states | and squeezed states | radiation field quantization and quantum field propagation | P-representation and classical fields | Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | phase-insensitive and phase-sensitive amplifiers | Quantum photodetection: direct detection | heterodyne detection | and homodyne detection | Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement | Quantum systems theory: optimum binary detection | quantum precision measurements | quantum cryptography | quantum teleportationLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata8.851 Strong Interactions (MIT) 8.851 Strong Interactions (MIT)

Description

Strong Interactions is a course in the construction and application of effective field theories, which are a modern tool of choice in making predictions based on the Standard Model. Concepts such as matching, renormalization, the operator product expansion, power counting, and running with the renormalization group will be discussed. Topics will be taken from heavy quark decays and CP violation, factorization in hard processes (deep inelastic scattering and exclusive processes), non-relativistic bound states in field theory (QED and QCD), chiral perturbation theory, few-nucleon systems, and possibly other Standard Model subjects. Strong Interactions is a course in the construction and application of effective field theories, which are a modern tool of choice in making predictions based on the Standard Model. Concepts such as matching, renormalization, the operator product expansion, power counting, and running with the renormalization group will be discussed. Topics will be taken from heavy quark decays and CP violation, factorization in hard processes (deep inelastic scattering and exclusive processes), non-relativistic bound states in field theory (QED and QCD), chiral perturbation theory, few-nucleon systems, and possibly other Standard Model subjects.Subjects

matching | matching | renormalization | renormalization | the operator product expansion | the operator product expansion | power counting | power counting | heavy quark decays | heavy quark decays | CP violation | CP violation | factorization in hard processes | factorization in hard processes | non-relativistic bound states in field theory (QED and QCD) | non-relativistic bound states in field theory (QED and QCD) | chiral perturbation theory | chiral perturbation theory | few-nucleon systems | few-nucleon systems | strong force | strong force | quarks | quarks | relativistic quantum field theory | relativistic quantum field theory | quantum chromodynamics | quantum chromodynamics | QCD | QCD | QCD Langrangian | QCD Langrangian | asymptotic freedom | asymptotic freedom | deep inelastic scattering | deep inelastic scattering | jets | jets | QCD vacuum | QCD vacuum | instantons | instantons | U(1) proglem | U(1) proglem | lattice gauge theory | lattice gauge theory | strong interactions | strong interactions | standard model | standard model | operator product expansion | operator product expansion | factorization | factorization | hard processes | hard processes | exclusive processes | exclusive processes | non-relativistic bound states | non-relativistic bound states | QED | QED | massive particles | massive particles | effective field theory | effective field theory | soft-collinear effective theory | soft-collinear effective theoryLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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China's rise as a great power raises important questions about how that power might be used in its relations with other states. Nowhere are such questions more salient than in the future trajectory of China's conflict behavior, including its approach to deterrence, crisis management and the use of force. To explore these important questions in China's international relations, this seminar examines the evolution of Chinese strategic thought, in primary sources as well as its reflection in the interactions among Chinese states and between China and other states. China's rise as a great power raises important questions about how that power might be used in its relations with other states. Nowhere are such questions more salient than in the future trajectory of China's conflict behavior, including its approach to deterrence, crisis management and the use of force. To explore these important questions in China's international relations, this seminar examines the evolution of Chinese strategic thought, in primary sources as well as its reflection in the interactions among Chinese states and between China and other states.Subjects

China | China | strategy | strategy | military | military | mao zedong | mao zedong | the Art of War | the Art of War | ancient chinese thought | ancient chinese thought | conflict | conflict | international relations | international relations | foreign policy | foreign policy | modern China | modern China | contemporary China | contemporary China | chinese literature | chinese literature | Chinese military history | Chinese military history | Chinese intellectualy history | Chinese intellectualy historyLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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This field seminar in international political economy covers major theoretical, empirical, and policy perspectives. The basic orientation is disciplinary and comparative (over time and across countries, regions, firms), spanning issues relevant to both industrial and developing states. Special attention is given to challenges and dilemmas shaped by the macro-level consequences of micro-level behavior, and by micro-level adjustments to macro-level influences. This field seminar in international political economy covers major theoretical, empirical, and policy perspectives. The basic orientation is disciplinary and comparative (over time and across countries, regions, firms), spanning issues relevant to both industrial and developing states. Special attention is given to challenges and dilemmas shaped by the macro-level consequences of micro-level behavior, and by micro-level adjustments to macro-level influences.Subjects

international relations | international relations | political science | political science | economics | economics | wealth | wealth | neoclassical | neoclassical | development | development | ecology | ecology | power | power | trade | trade | capital | capital | foreign investment | foreign investment | intellectual property | intellectual property | migration | migration | foreignpolicy | foreignpolicy | globalization | globalization | internet | internet | sustainability | sustainability | institutions | institutions | foreign policy | foreign policy | IPE | IPE | dual national objectives | dual national objectives | global context | global context | pursuit of power | pursuit of power | pursuit of wealth | pursuit of wealth | international political economy | international political economy | neoclassical economics | neoclassical economics | development economics | development economics | ecological economics | ecological economics | lateral pressure | lateral pressure | perspectives | perspectives | structural views | structural views | power relations | power relations | politics | politics | international trade | international trade | capital flows | capital flows | intellectual property rights | intellectual property rights | international migration | international migration | foreign economic policy | foreign economic policy | international economic institutions | international economic institutions | theoretical perspectives | theoretical perspectives | empirical perspectives | empirical perspectives | policy perspectives | policy perspectives | disciplinary | disciplinary | comparative | comparative | time | time | countries | countries | regions | regions | firms | firms | industrial states | industrial states | developing states | developing states | macro-level consequences | macro-level consequences | micro-level behavior | micro-level behavior | micro-level adjustments | micro-level adjustments | macro-level influences | macro-level influences | complexity | complexity | localization | localization | technology | technology | knowledge economy | knowledge economy | finance | finance | global markets | global markets | political economy | political economy | e-commerce | e-commerceLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataDescription

This field seminar in international political economy covers major theoretical, empirical, and policy perspectives. The basic orientation is disciplinary and comparative (over time and across countries, regions, firms), spanning issues relevant to both industrial and developing states. Special attention is given to challenges and dilemmas shaped by the macro-level consequences of micro-level behavior, and by micro-level adjustments to macro-level influences. This field seminar in international political economy covers major theoretical, empirical, and policy perspectives. The basic orientation is disciplinary and comparative (over time and across countries, regions, firms), spanning issues relevant to both industrial and developing states. Special attention is given to challenges and dilemmas shaped by the macro-level consequences of micro-level behavior, and by micro-level adjustments to macro-level influences.Subjects

international relations | international relations | political science | political science | economics | economics | wealth | wealth | neoclassical | neoclassical | development | development | ecology | ecology | power | power | trade | trade | capital | capital | foreign investment | foreign investment | intellectual property | intellectual property | migration | migration | foreignpolicy | foreignpolicy | globalization | globalization | internet | internet | sustainability | sustainability | institutions | institutions | foreign policy | foreign policy | IPE | IPE | dual national objectives | dual national objectives | global context | global context | pursuit of power | pursuit of power | pursuit of wealth | pursuit of wealth | international political economy | international political economy | neoclassical economics | neoclassical economics | development economics | development economics | ecological economics | ecological economics | lateral pressure | lateral pressure | perspectives | perspectives | structural views | structural views | power relations | power relations | politics | politics | international trade | international trade | capital flows | capital flows | intellectual property rights | intellectual property rights | international migration | international migration | foreign economic policy | foreign economic policy | international economic institutions | international economic institutions | theoretical perspectives | theoretical perspectives | empirical perspectives | empirical perspectives | policy perspectives | policy perspectives | disciplinary | disciplinary | comparative | comparative | time | time | countries | countries | regions | regions | firms | firms | industrial states | industrial states | developing states | developing states | macro-level consequences | macro-level consequences | micro-level behavior | micro-level behavior | micro-level adjustments | micro-level adjustments | macro-level influences | macro-level influences | complexity | complexity | localization | localization | technology | technology | knowledge economy | knowledge economy | finance | finance | global markets | global markets | political economy | political economy | e-commerce | e-commerceLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataThe impact of globalisation The impact of globalisation

Description

This is a module framework. It can be viewed online or downloaded as a zip file. As taught Autumn Semester 2010. Globalisation has been widely debated in International Political Economy. This module has the task to assess its impact on European politics and integration. First, various definitions of globalisation will be introduced, before its impact on individual European countries and the European Union as a whole is analysed. Is there a general institutional and policy convergence of states due to globalisation, or do states respond in different ways? Does globalisation leave room for alternative economic-political models? Is European integration a defensive response to globalisation or simply part and parcel of the processes of global structural change? What are the likely characteri This is a module framework. It can be viewed online or downloaded as a zip file. As taught Autumn Semester 2010. Globalisation has been widely debated in International Political Economy. This module has the task to assess its impact on European politics and integration. First, various definitions of globalisation will be introduced, before its impact on individual European countries and the European Union as a whole is analysed. Is there a general institutional and policy convergence of states due to globalisation, or do states respond in different ways? Does globalisation leave room for alternative economic-political models? Is European integration a defensive response to globalisation or simply part and parcel of the processes of global structural change? What are the likely characteriSubjects

UNow | UNow | ukoer | ukoer | Module Code:M13025 | Module Code:M13025 | Globalisation | Globalisation | International Political Economy | International Political Economy | European politics | European politics | European Union | European Union | institutional and policy convergence of states | institutional and policy convergence of states | future economic-political model of the EU | future economic-political model of the EULicense

Except for third party materials (materials owned by someone other than The University of Nottingham) and where otherwise indicated, the copyright in the content provided in this resource is owned by The University of Nottingham and licensed under a Creative Commons Attribution-NonCommercial-ShareAlike UK 2.0 Licence (BY-NC-SA) Except for third party materials (materials owned by someone other than The University of Nottingham) and where otherwise indicated, the copyright in the content provided in this resource is owned by The University of Nottingham and licensed under a Creative Commons Attribution-NonCommercial-ShareAlike UK 2.0 Licence (BY-NC-SA)Site sourced from

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See all metadata8.422 Atomic and Optical Physics II (MIT) 8.422 Atomic and Optical Physics II (MIT)

Description

Includes audio/video content: AV lectures. This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light–squeezed states; multi-photon processes, Raman scattering; coherence–level crossings, quantum beats, double resonance, superradiance; trapping and cooling-light forces, laser cooling, atom optics, spectroscopy of trapped atoms and ions; atomic interactions–classical collisions, quantum scattering theory, ultracold collisions; and experimental methods. Includes audio/video content: AV lectures. This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light–squeezed states; multi-photon processes, Raman scattering; coherence–level crossings, quantum beats, double resonance, superradiance; trapping and cooling-light forces, laser cooling, atom optics, spectroscopy of trapped atoms and ions; atomic interactions–classical collisions, quantum scattering theory, ultracold collisions; and experimental methods.Subjects

atomic | atomic | optical physics | optical physics | squeezed states | squeezed states | single photon | single photon | Casimir force | Casimir force | optical Bloch equations | optical Bloch equations | Photon-atom interactions | Photon-atom interactions | light forces | light forces | quantum gases | quantum gases | ion traps and quantum gates | ion traps and quantum gatesLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata8.422 Atomic and Optical Physics II (MIT) 8.422 Atomic and Optical Physics II (MIT)

Description

This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods. This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods.Subjects

atomic | atomic | optical physics | optical physics | Non-classical states of light | Non-classical states of light | squeezed states | squeezed states | multi-photon processes | multi-photon processes | Raman scattering | Raman scattering | coherence | coherence | level crossings | level crossings | quantum beats | quantum beats | double resonance | double resonance | superradiance | superradiance | trapping and cooling | trapping and cooling | light forces | light forces | laser cooling | laser cooling | atom optics | atom optics | spectroscopy of trapped atoms and ions | spectroscopy of trapped atoms and ions | atomic interactions | atomic interactions | classical collisions | classical collisions | quantum scattering theory | quantum scattering theory | ultracold collisions | ultracold collisions | experimental methods | experimental methodsLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataDescription

This seminar considers "difference" and "sameness" as they have been conceived, experienced, and regulated by peoples of the Middle East, with a focus on the 19th and 20th centuries. The first half discusses the Ottoman Empire by exploring how this multiethnic, polyglot empire survived for several relatively peaceful centuries and what happened when its formula for existence was challenged by politics based on mono-ethnic states. The second half of the course focuses on post-Ottoman nation-states, such as Turkey and Egypt, and Western-mandated Arab states, such as Syria, Lebanon, Palestine, and Iraq. Finally, the course concludes with a case analysis of Israel. This seminar considers "difference" and "sameness" as they have been conceived, experienced, and regulated by peoples of the Middle East, with a focus on the 19th and 20th centuries. The first half discusses the Ottoman Empire by exploring how this multiethnic, polyglot empire survived for several relatively peaceful centuries and what happened when its formula for existence was challenged by politics based on mono-ethnic states. The second half of the course focuses on post-Ottoman nation-states, such as Turkey and Egypt, and Western-mandated Arab states, such as Syria, Lebanon, Palestine, and Iraq. Finally, the course concludes with a case analysis of Israel.Subjects

israel | israel | palestine | palestine | turkey | turkey | middle east | middle east | dhimmi | dhimmi | arab | arab | islam | islam | revolution | revolution | ottoman empire | ottoman empire | armenia | armenia | genocide | genocideLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataPolitical ordering Political ordering

Description

This unit asks questions about what states are and how they are involved in the processes of governing and ordering social life. Beginning from an awareness of just how much of everyday life involves the state, to if states have this authority to govern. They also ask about situations in which states may not be able to command such authority - where their governing role is not accepted as legitimate. First published on Tue, 04 Feb 2014 as Political ordering. To find out more visit The Open University's Openlearn website. Creative-Commons 2014 This unit asks questions about what states are and how they are involved in the processes of governing and ordering social life. Beginning from an awareness of just how much of everyday life involves the state, to if states have this authority to govern. They also ask about situations in which states may not be able to command such authority - where their governing role is not accepted as legitimate. First published on Tue, 04 Feb 2014 as Political ordering. To find out more visit The Open University's Openlearn website. Creative-Commons 2014Subjects

Politics | Politics | Ireland – Places | Culture & Heritage | Ireland – Places | Culture & Heritage | social sciences | social sciences | social policy | social policy | psychology | psychology | identity | identity | government | government | family | family | economy | economy | growth | growth | Northern Ireland | Northern Ireland | DD101_1 | DD101_1License

Except for third party materials and otherwise stated (see http://www.open.ac.uk/conditions terms and conditions), this content is made available under a http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ Creative Commons Attribution-NonCommercial-ShareAlike 2.0 Licence Licensed under a Creative Commons Attribution - NonCommercial-ShareAlike 2.0 Licence - see http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ - Original copyright The Open UniversitySite sourced from

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See all metadataMarines from Mich. (LOC) Marines from Mich. (LOC)

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Subjects

libraryofcongress | libraryofcongress | worldwari | worldwari | thegreatwar | thegreatwar | greatwar | greatwar | firstworldwar | firstworldwar | unitedstatesmarinecorps | unitedstatesmarinecorps | usmarinecorps | usmarinecorps | usmarines | usmarines | usmc | usmc | marinecorps | marinecorps | unitedstatesmarine | unitedstatesmarine | unitedstatesmarines | unitedstatesmarines | marines | marines | marine | marine | pickelhelm | pickelhelm | pickelhaube | pickelhaube | warprize | warprizeLicense

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See all metadataReturning marines (LOC) Returning marines (LOC)

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libraryofcongress | libraryofcongress | worldwari | worldwari | thegreatwar | thegreatwar | greatwar | greatwar | firstworldwar | firstworldwar | unitedstatesmarinecorps | unitedstatesmarinecorps | usmarinecorps | usmarinecorps | usmarines | usmarines | usmc | usmc | marinecorps | marinecorps | unitedstatesmarine | unitedstatesmarine | unitedstatesmarines | unitedstatesmarines | marines | marines | marine | marine | marineofficer | marineofficer | marinecorpsofficer | marinecorpsofficer | officers | officers | sambrownebelt | sambrownebelt | michigan | michiganLicense

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See all metadataEdw. Vahey, Jos. A. Kearns (LOC) Edw. Vahey, Jos. A. Kearns (LOC)

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Subjects

libraryofcongress | libraryofcongress | worldwari | worldwari | thegreatwar | thegreatwar | greatwar | greatwar | firstworldwar | firstworldwar | unitedstatesmarinecorps | unitedstatesmarinecorps | usmarinecorps | usmarinecorps | usmarines | usmarines | usmc | usmc | marinecorps | marinecorps | unitedstatesmarine | unitedstatesmarine | unitedstatesmarines | unitedstatesmarines | marines | marines | marine | marineLicense

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See all metadataGEO WASHINGTON (LOC) GEO WASHINGTON (LOC)

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Subjects

libraryofcongress | libraryofcongress | ussgeorgewashington | ussgeorgewashington | tugboats | tugboats | july81919 | july81919 | ship | ship | oceanliner | oceanliner | steamship | steamship | norddeutscherlloyd | norddeutscherlloyd | norddeutschelloyd | norddeutschelloyd | ndl | ndl | northgermanlloyd | northgermanlloyd | agvulcan | agvulcan | ssgeorgewashington | ssgeorgewashington | unitedstatesnavy | unitedstatesnavy | usnavy | usnavy | usn | usn | ussgeorgewashingtonid3018 | ussgeorgewashingtonid3018 | id3018 | id3018 | usatgeorgewashington | usatgeorgewashington | usscatlinap19 | usscatlinap19 | usscatlin | usscatlin | ap19 | ap19 | unitedstatesmailsteamshiplines | unitedstatesmailsteamshiplines | unitedstateslines | unitedstateslinesLicense

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See all metadataGEO WASHINGTON (LOC) GEO WASHINGTON (LOC)

Description

Subjects

libraryofcongress | libraryofcongress | ussgeorgewashington | ussgeorgewashington | tugboats | tugboats | july81919 | july81919 | ship | ship | oceanliner | oceanliner | steamship | steamship | norddeutscherlloyd | norddeutscherlloyd | norddeutschelloyd | norddeutschelloyd | ndl | ndl | northgermanlloyd | northgermanlloyd | agvulcan | agvulcan | ssgeorgewashington | ssgeorgewashington | unitedstatesnavy | unitedstatesnavy | usnavy | usnavy | usn | usn | ussgeorgewashingtonid3018 | ussgeorgewashingtonid3018 | id3018 | id3018 | usatgeorgewashington | usatgeorgewashington | usscatlinap19 | usscatlinap19 | usscatlin | usscatlin | ap19 | ap19 | unitedstatesmailsteamshiplines | unitedstatesmailsteamshiplines | unitedstateslines | unitedstateslinesLicense

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See all metadataGEO WASHINGTON (LOC) GEO WASHINGTON (LOC)

Description

Subjects

libraryofcongress | libraryofcongress | ussgeorgewashington | ussgeorgewashington | tugboats | tugboats | july81919 | july81919 | ship | ship | oceanliner | oceanliner | steamship | steamship | norddeutscherlloyd | norddeutscherlloyd | norddeutschelloyd | norddeutschelloyd | ndl | ndl | northgermanlloyd | northgermanlloyd | agvulcan | agvulcan | ssgeorgewashington | ssgeorgewashington | unitedstatesnavy | unitedstatesnavy | usnavy | usnavy | usn | usn | ussgeorgewashingtonid3018 | ussgeorgewashingtonid3018 | id3018 | id3018 | usatgeorgewashington | usatgeorgewashington | usscatlinap19 | usscatlinap19 | usscatlin | usscatlin | ap19 | ap19 | unitedstatesmailsteamshiplines | unitedstatesmailsteamshiplines | unitedstateslines | unitedstateslinesLicense

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See all metadataWilson returns, 7/8/19 (LOC) Wilson returns, 7/8/19 (LOC)

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Subjects

libraryofcongress | libraryofcongress | ussgeorgewashington | ussgeorgewashington | presidentwoodrowwilson | presidentwoodrowwilson | woodrowwilson | woodrowwilson | thomaswoodrowwilson | thomaswoodrowwilson | uspresidents | uspresidents | july81919 | july81919 | ship | ship | oceanliner | oceanliner | steamship | steamship | norddeutscherlloyd | norddeutscherlloyd | norddeutschelloyd | norddeutschelloyd | ndl | ndl | northgermanlloyd | northgermanlloyd | agvulcan | agvulcan | ssgeorgewashington | ssgeorgewashington | unitedstatesnavy | unitedstatesnavy | usnavy | usnavy | usn | usn | ussgeorgewashingtonid3018 | ussgeorgewashingtonid3018 | id3018 | id3018 | usatgeorgewashington | usatgeorgewashington | usscatlinap19 | usscatlinap19 | usscatlin | usscatlin | ap19 | ap19 | unitedstatesmailsteamshiplines | unitedstatesmailsteamshiplines | unitedstateslines | unitedstateslines | shipsbridge | shipsbridgeLicense

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