Terms: Magic Angle Spinning (161,000), magic angle field spinning (28), MAS sideband (351), magic angle (239,000), rotating field magic (2),
Terms: magic angle effect (1,160), magic angle effects (368), nernst magic angle (3), field induced commensurability (9), organic conductors (72,700), layered metals (2,240), tilted magnetic fields (2,160), resonant nernst effect (36), field induced superconductivity (1,450), field induced superconducting (435), 2D superconductivity (402), negative differential resistance (63,300), transmissivity (489,000),
Boolean: commensurate +magnetic +(angle OR angles) (124,000), lebed +"standing waves" +magnetic (63),
Terms: telegrapher equation (2,810), telegraph equation (12,600),
Terms: resonant transmission (13,800), resonant coupling (32,900), resonant transfer (5,420), resonant tunneling (196,000), resonant conductor (73), macroscopic resonant tunnelling (22), multilayer resonant tunneling (4),
University of Nebraska Lincoln - Evgeny Y. Tsymbal
Macroscopic Resonant Tunneling of Magnetic Flux
Resonant Inversion of Tunneling Magnetoresistance
Chudobiak - Review of the State of the ARt in Resonant Tunneling Diodes
Terms: atomic laser (19,200), atomic condensate (1,070), bose einstein condensates (410,000), tunneling magnetoresistance (26,700),
Terms: coherent electron (23,600), coherent proton (299), coherent atomic (15,400), coherent nuclear (6,610), resonant electron (16,800), resonant proton (328), resonant atomic (1,690), resonant nuclear (2,990),
Andrei Lebed - Strong Magnetism Creates Two-Dimensional Superconductivity
APS 2006 March - Session P44: Organic Conductors
Concept: The spins are lightly coupled to the lattice, so the Q of the device is very high. The layers are very close, so the coupling/capacitance is high. A wave without resistance can resonantly transfer through such a conduit, but the transmission frequency, magnetic field, voltage must all match the material properties and current requirements. This is a nine sigma problem, but electric companies can use a 2 sigma solution economically. So, almost any resonant conductor will work. One possibility is an acoustic resonantor to bunch the spins at the proper distances. Kind of like a long klystron or magnetron.
Note: Josephson Tunneling is just a two layer example. The multilayer giant magnetoresistance is another, moving in the right direction. What is missing is the urge to transfer power efficiently.
Terms: Nernst effect (16,900), giant Nernst (228), giant magnetoresistance (313,000), giant thermoelectric (331), unified theory of magic angles (2), lebed magic (75), angular magnetoresistance (756), commensurate oscillations (58), andrei lebed (989),
Boolean: Magnetic +Field +Induced +Commensurability +Correlation +Effects (1,750), Nerst +"magic angle" (3), Nernst +"magic angle" (262), Nernst +"magic angles" (71), thermoelectric +"magic angles" (41),
Magnetic Field Induced Commensurability and Correlation Effects in Low Dimensional Organic Conductors - Weida Wu, Princeton, Thesis
Boolean: "magic angle spinning" +ultrasonic (1,180), "magic angle spinning" +ultrasound (1,180), "3-axis" +ultrasound (11,200), "3-axis" +acoustic (78,800), multiaxis +acoustic (1,580), multiaxis +ultrasonic (8,960), multiaxis +ultrasound (1,730),
Boolean: nmr +linewidth +(ultrasound OR ultrasonic) (1,390),
Terms: rotating magnetic fields (25,600), rotating magnetic field (160,000),
Terms: orientation averaging (1,020), chemical shift anisotropy (38,000), force constants (142,000), elastic constants (328,000), interatomic forces (44,000),
Terms: vibrational energy (606,000), vibrational energies (105,000), vibrational spectra (248,000), vibrational spectrum (90,000), vibrational motion (96,600), vibrational motions (26,100), average vibrational energy (613), heat capacity (2,060,000), specific heat (2,250,000), thermal energy (4,740,000),
Terms: acoustic energy density (5,150), acoustic energy (1,990,000),
Terms: phonon (1,840,000), phonons (979,000), phonon spectrum (33,000), three dimensional phonons (161), transverse acoustic (17,700), optical phonons (72,700), magnetic phonons (4),
Boolean: "temperature variations" +"acoustic waves" +intensity (1,120), "temperature variations" +"acoustic waves" +solids (465), "pressure variations" +"acoustic waves" +solids (110),
Boolean: "pressure variations" +"in solids" (513), "temperature variations" +"in solids" (2,260), "pressure fluctuations" +"in solids" (494), "temperature fluctuations" +"in solids" (723),
Terms: transverse noise (774), transverse noise temperature (89), current fluctuations (113,000), noise power (1,050,000), spin waves (149,000), spintronics (1,090,000),
Terms: magnetization (2,310,000), magnon (1,390,000), magnons (295,000), Raman scattering (842,000), Raman spectroscopy (1,620,000),
Terms: Compton effect (253,000), Doppler effect (1,340,000),
Terms: Brillouin scattering (168,000), Brillouin spectroscopy (13,300), Brillouin imaging (55), Brillouin spectra (1,900), Brillouin spectrum (1,220), Brillouin spectroscope (0), Brillouin shift (812),
Terms: thermally excited (64,700), thermally excited elastic (22), thermally excited acoustic (59), thermoelastic (233,000), thermoacoustic (152,000), elastic properties (922,000),
Terms: phonomagnetic (5), acoustomagnetic (10,500), audiomagnetic (147), acousto-magnetic (19,300), acousto-magnetic effect (12),
Terms: elastooptic (1,060), elasto-optic (2,240), elasto-optical (443), acousto-optical (87,900), acoustooptical (11,200), photoelastic (134,000), photoacoustic (434,000), magnetoresistance (811,000), magnetoresistive (441,000), magneto-optic (208,000), qmr effect (208),
Terms: barkhausen effect (17,500), barnett effect (930), bridgman effect (109), cotton-mouton effect (2,100), de haas van alphen effect (15,600), faraday effect (103,000), garshelis effect (71), hall effect (2,390,000), inverse faraday effect (1,680), kondo effect (138,000), kerr effect (177,000), meissner effect (133,000), magnetic resonance (20,800,000), overhauser effect (104,000), paschen-back effect (2,110), voigt effect (886), zeeman effect (207,000),
Terms: inverse zeeman effect (76), mossbauer effect (37,600), polarization spectroscopy (29,800), polarization (18,900,000), polarize (2,050,000), polarizable (234,000),
Terms: Stark effect (248,000), electric field (6,090,000), electric potential (1,460,000), dipole moment (1,030,000), quadrupole moment (209,000), multipole moments (51,800),
Boolean: "elastic waves" +dilation +rotation (305), "spin waves" +"angular momentum" (8,000), "elastic waves" +"angular momentum" (2,330), "zero field" +nmr (32,700), "zero field" +"magnetic resonance" (24,700), polarization +anisotropy (832,000),
Boolean: modulate angular momentum (336,000),
Phil Anderson - Acoustomagnetic
Boolean: brillouin +nmr (42,600), brillouin +"magnetic resonance" (26,600), brillouin +MHz (31,600), brillouin +GHz (40,800), brillouin +THz (17,500), brillouin +kHz (18,400), brillouin +infrared (124,000), brillouin +ultraviolet (41,400), brillouin +"x-ray" (176,000), brillouin +"gamma ray" (10,700),
Boolean: "spin waves" +ferromagnetic (43,000), "spin waves" -ferromagnetic (83,700), "spin wave" -"spin waves" +ferromagnetic (36,700), "spin wave" -"spin waves" -ferromagnetic (86,200),
Terms: raman active (53,700), magnetically active (68,000), infrared active (39,400), boson spectrum (583),
Boolean: anharmonic +defects (33,000), "bond strength" +"sound speed" (76), "bond strength" +"speed of sound" (534),
Terms: lattice (27,900,000), lattice waves (9,680), random lattice vibrations (61), lattice vibration (28,700), lattice vibrations (173,000),
Terms: equilibrium positions (96,700), dispersion relation (447,000), dispersion relations (421,000), slope of the dispersion relation (280), optical and acoustic modes (299), optical and acoustic branches (73), dispersion curves (120,000), energy fluctuations (85,700), thermal phonons (4,070),
Boolean: dissociation +diatomic (146,000), rotational +irrotational (36,900), lattice +displacements (294,000),
Boolean: acoustic +solids +displacements (35,100), acoustic +solids +vibration +displacement (88,900), acoustic +solids +atoms (152,000),
Terms: multiaxis ultrasound (0), orthogonal ultrasound (36), orthogonal ultrasonic (44), rotational motions (77,300), irrotational motions (443),
Terms: ultrasonic spinning (3), synthetic rotation (343), ultrasonic rotation (320), acoustic rotation (75), orbital vibrator (542), orbital vibration (1,160),
Boolean: rotation +parametric (1,440,000), orbital +ultrasound (560,000), orbital +ultrasonic (246,000), orbital +acoustic (1,600,000), vibration +motion +orbiting (252,000),
Boolean: acoustic +orthogonal +motions +particles (17,700), orbital +patterns +orthogonal +acoustic (10,800), rotational +patterns +acoustic (144,000),
Terms: rotational splitting (2,240), normal modes (633,000), vibrational modes (397,000),