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1

Reddish, Vincent C. The field of rotating masses. Edinburgh: Makar Pub., 2010.

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2

K, Mazuruk, ed. Flow transitions in a rotating magnetic field. [Washington, D.C: National Aeronautics and Space Administration, 1997.

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3

K, Mazuruk, and United States. National Aeronautics and Space Administration., eds. Flow transitions in a rotating magnetic field. [Washington, D.C: National Aeronautics and Space Administration, 1997.

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4

Ostović, Vlado. The Art and Science of Rotating Field Machines Design: A Practical Approach. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-39081-9.

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5

Law, Hillary June. The effects of a rotating circumcerebral magnetic field upon hypnotizability and subjective experiences: Does expectancy make a difference? Sudbury, Ont: Laurentian University, Department of Psychology, 2002.

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6

Rotating fields in general relativity. Cambridge [Cambridgeshire]: Cambridge University Press, 1985.

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7

United States. National Aeronautics and Space Administration., ed. Annual performance report for analysis of plasma measurements for the geotail missions: NAG5-2371, period covered 1 October 1993-30 September 1994. [Washington, DC: National Aeronautics and Space Administration, 1993.

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8

Aono, Osamu. Rotation of a magnetic field. Nagoya, Japan: Institute of Plasma Physics, Nagoya University, 1986.

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9

Dominion Experimental Farms and Stations (Canada), ed. Summary of results: Field husbandry, 1914. Ottawa: Dept. of Agriculture, 1997.

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10

Dominion Experimental Farms and Stations (Canada), ed. Summary of results: Field husbandry, 1913. Ottawa: Dept. of Agriculture, 1997.

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11

H. C. J. de Jong. AC motor design: Rotating magnetic fields in a changing environment. New York: Hemisphere Pub. Corp., 1989.

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12

Bauscher, Lonny D. 1985 crop enterprise budgets, three-year rotation, Garfield County, Washington. Pullman, Wash: Cooperative Extension, College of Agriculture, Washington State University, 1985.

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13

Brandenburg, Axel. Challenges for solar dynamo theory: [alpha]-effect, differential rotation and stability. Helsinki: Observatory and Astrophysics Laboratory, University of Helsinki, Finland, 1990.

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14

El Escorial Summer School on Gravitation and General Relativity 1992: Rotating Objects and Other Topics (1992). Rotating objects and relativistic physics: Proceedings of the El Escorial Summer School on Gravitation and General Relativity 1992: Rotating Objects and Other Topics held at El Escorial, Spain, 24-28 August 1992. Berlin: Springer-Verlag, 1993.

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15

Summer School on Gravitation and General Relativity (1992 El Escorial, Spain). Rotating objects and relativistic physics: Proceedings of the El Escorial Summer School on Gravitation and General Relativity 1992, Rotating Objects and Other Topics held at El Escorial, Spain, 24-28 August 1992. Berlin: Springer, 1993.

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16

Belet͡skiĭ, V. V. Vrashchatelʹnoe dvizhenie namagnichennogo sputnika. Moskva: "Nauka," Glav. red. fiziko-matematicheskoĭ lit-ry, 1985.

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17

Hotta, Hideyuki. Thermal Convection, Magnetic Field, and Differential Rotation in Solar-type Stars. Tokyo: Springer Japan, 2015. http://dx.doi.org/10.1007/978-4-431-55399-1.

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18

Greer, Allan J. Low magnetic fields in anisotropic superconductors. Heidelberg, Germany: Springer, 1995.

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19

M, Nallasamy, and United States. National Aeronautics and Space Administration., eds. Near-field noise of a single-rotation propfan at an angle of attack. [Washington, DC]: National Aeronautics and Space Administration, 1990.

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20

M, Nallasamy, and United States. National Aeronautics and Space Administration., eds. Near-field noise of a single-rotation propfan at an angle of attack. [Washington, DC]: National Aeronautics and Space Administration, 1990.

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21

Ferronskiĭ, V. I. Dinamika Zemli: Teorii︠a︡ dvizhenii︠a︡ planety na osnovakh dinamicheskogo ravnovesii︠a︡. Moskva: Nauch. mir, 2007.

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22

Bernard, Durney, and Sofia Sabatino, eds. The internal solar angular velocity: Theory, observations, and relationship to solar magnetic fields : proceedings of the 8th National Solar Observatory Summer Symposium, held in Sunspot, New Mexico, August 11-14, 1986. Dordrecht: D. Reidel Pub. Co., 1987.

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23

Kommission, Deutsche Geodätische, ed. Physically consistent system model for the study of the Earth's rotation, surface deformation and gravity field parameters: Scientific results of the DFG project. München: Verlag der Bayerischen Akademie der Wissenschaften, 2009.

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24

G, Sofrin T., and United States. National Aeronautics and Space Administration., eds. Method for extracting forward acoustic wave components from rotating microphone measurements in the inlets of turbofan engines. [Washington, DC]: National Aeronautics and Space Administration, 1995.

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25

Langel, R. A. The magnetic field of the Earth's lithosphere: The satellite perspective. Cambridge, U.K: Cambridge University Press, 1998.

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26

Howarth, Ian D. The IUE MEGA campaign: The rotationally modulated wind of [zeta] Puppis. [Washington, DC: National Aeronautics and Space Administration, 1995.

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27

Karousatos, Tassos A. The planet sun. Athens, Greece: Laboratory of Magneto-Optical Research, 1985.

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28

IAU, Colloquium (141st 1992 Beijing China). The magnetic and velocity of fields of solar active regions: Proceedings of IAU Colloquium no. 141, Beijing, China, 6-12 September 1992. San Francisco, Calif: Astronomical Society of the Pacific, 1993.

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29

J, Bober Lawrence, and Lewis Research Center, eds. An analysis for the sound field produced by rigid wide chord dual rotation propellers of high solidity in compressible flow. [Cleveland, Ohio: National Aeronautics and Space Administration, Lewis Research Center, 1986.

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30

H, Cairns Iver, and United States. National Aeronautics and Space Administration., eds. Large scale motions of Neptune's bow shock: Evidence for control of the shock position by the rotation phase of Neptune's magnetic field. Iowa City, IA: Dept. of Physics and Astronomy, University of Iowa, 1991.

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31

A, Balona Luis, Henrichs Huib F, and Medupe Rodney, eds. International Conference on Magnetic Fields in O, B and A Stars: Origin and connection to pulsation, rotation and mass loss : proceedings of a conference held at University of North-West, Mmabatho, South Africa, 27 November - 1 December, 2002. San Francisco, California: Astronomical Society of the Pacific, 2003.

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32

Tesla, Nikola, and Thomas Commerford Martin. The Tesla Rotating Magnetic Field. Kessinger Publishing, 2005.

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33

O'Connell, Timothy, Paul Krause, Steven D. Pekarek, and Oleg Wasynczuk. Electromechanical Motion Devices: Rotating Magnetic Field-Based Analysis, Third Edition. Wiley & Sons, Incorporated, John, 2022.

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34

Kappraff, Jay, Jay Krappraff, and William Grossmann. Hall Current Effects on Tearing Modes in Rotating Reverse Field Plasmas. Creative Media Partners, LLC, 2018.

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35

O'Connell, Timothy, Paul Krause, Steven D. Pekarek, and Oleg Wasynczuk. Electromechanical Motion Devices: Rotating Magnetic Field-Based Analysis with Online Animations. Wiley & Sons, Incorporated, John, 2020.

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36

Ostović, Vlado. Art and Science of Rotating Field Machines Design: A Practical Approach. Springer London, Limited, 2016.

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37

O'Connell, Timothy, Paul Krause, Steven D. Pekarek, and Oleg Wasynczuk. Electromechanical Motion Devices: Rotating Magnetic Field-Based Analysis with Online Animations. Wiley & Sons, Incorporated, John, 2020.

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38

Ostović, Vlado. The Art and Science of Rotating Field Machines Design: A Practical Approach. Springer, 2016.

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39

Ostović, Vlado. The Art and Science of Rotating Field Machines Design: A Practical Approach. Springer, 2018.

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40

National Aeronautics and Space Administration (NASA) Staff. Effects of a Rotating Aerodynamic Probe on the Flow Field of a Compressor Rotor. Independently Published, 2019.

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41

Sleep patterns in air traffic controllers working rapidly rotating shifts: A field study : final report. Washington, D.C: Office of Aviation Medicine, U.S. Dept. of Transporation, Federal Aviation Administration, 1995.

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42

Mashhoon, Bahram. Acceleration Kernel. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803805.003.0003.

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The phenomenon of spin-rotation coupling provides the key to the determination of the kernel. Imagine an observer rotating in the positive sense about the direction of propagation of an incident plane monochromatic electromagnetic wave of positive helicity. Using the locality postulate, the field as measured by the rotating observer can be determined. If the observer rotates with the same frequency as the wave, the measured radiation field loses its temporal dependence. By a mere rotation, observers could in principle stay at rest with respect to an incident positive-helicity wave. To avoid this possibility, we assume that a basic radiation field cannot stand completely still with respect to an accelerated observer. This basic principle eventually leads to the determination of the kernel and a nonlocal theory of accelerated systems that is in better agreement with quantum mechanics than the standard theory based on the hypothesis of locality.
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43

The Electromagnetic Field of a Rotating Relativistic Uniform System. Chapter 2 in the book: Horizons in World Physics. Volume 306. Edited by Albert Reimer. https://doi.org/10.52305/RSRF2992.: The Electromagnetic Field of a Rotating Relativistic Uniform System. New York, USA: Nova Science Publishers Inc, 2021.

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44

Zeitlin, Vladimir. Simplifying Primitive Equations: Rotating Shallow-Water Models and their Properties. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198804338.003.0003.

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In this chapter, one- and two-layer versions of the rotating shallow-water model on the tangent plane to the rotating, and on the whole rotating sphere, are derived from primitive equations by vertical averaging and columnar motion (mean-field) hypothesis. Main properties of the models including conservation laws and wave-vortex dichotomy are established. Potential vorticity conservation is derived, and the properties of inertia–gravity waves are exhibited. The model is then reformulated in Lagrangian coordinates, variational principles for its one- and two-layer version are established, and conservation laws are reinterpreted in these terms.
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45

Matsuo, M., E. Saitoh, and S. Maekawa. Spin-Mechatronics—mechanical generation of spin and spin current. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198787075.003.0025.

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This chapter discusses interconversion phenomena between spin and mechanical angular momtum. In moving objects, the spin gauge fields emerge from inertial effects and produce angular momentum transfer between mechanical motion and spin. Such spin-mechanial effects are predicted by quantum theory in non-inertial frames, and confirmed by recent experiments including the resonance frequency shift in NMR, the stray field measurement of rotating metals, and the inverse spin Hall voltage generation in liquied metals. These spin-mechanical effects that arise via the spin-gauge fields open a new field of spintornics, where spin and mechanical motion couple harmoniously.
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46

Islam, Jamal Nazrul. Rotating Fields in General Relativity. Cambridge University Press, 2009.

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47

Islam, Jamal Nazrul. Rotating Fields in General Relativity. Cambridge University Press, 2010.

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48

Islam, Jamal Nazrul. Rotating Fields in General Relativity. Cambridge University Press, 2011.

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49

Horing, Norman J. Morgenstern. Q. M. Pictures; Heisenberg Equation; Linear Response; Superoperators and Non-Markovian Equations. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198791942.003.0003.

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Three fundamental and equivalent mathematical frameworks (“pictures”) in which quantum theory can be lodged are exhibited and their relations and relative advantages/disadvantages are discussed: (1) The Schrödinger picture considers the dynamical development of the overall system state vector as a function of time relative to a fixed complete set of time-independent basis eigenstates; (2) The Heisenberg picture (convenient for the use of Green’s functions) embeds the dynamical development of the system in a time-dependent counter-rotation of the complete set of basis eigenstates relative to the fixed, time-independent overall system state, so that the relation of the latter fixed system state to the counter-rotating basis eigenstates is identically the same in the Heisenberg picture as it is in the Schrödinger picture; (3) the Interaction Picture addresses the situation in which a Hamiltonian, H=H0+H1, involves a part H0 whose equations are relatively easy to solve and a more complicated part, H1, treated perturbatively. The Heisenberg equation of motion for operators is discussed, and is applied to annihilation and creation operators. The S-matrix, density matrix and von Neumann equation, along with superoperators and non-Markovian kinetic equations are also addressed (e.g. the intracollisional field effect).
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50

Dejong, H. AC Motor Design: Rotating Magnetic Fields in a Changing Environment. Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, 1989.

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