Terms: Polar Molecules (281,000), polar molecule (134,000), electric dipole moment (227,000), electric dipole moments (96,900),
Terms: magnetoresistance in insulators (1), spin accumulation (19,200), spin hall effect (38,000), spin hall accumulation (87), spin current (73,200), spin pumping (3,120), spin injection (114,000),
Concept: The idea is to go back to dielectric properties, to electric dipole interactions, which are much stronger than magnetic dipole interactions, and use those to transport power. There has been enough studied about spin transport to provide magnetic resonant transport (resonant transport of power) using magnetic dipole interactions. Or electron paramagnetic interactions. Same process, different names. Spin accumulation is one way to capacitively store energy along the path. Once there is an energy storage mechanism, then resonant transport just applies something like the telegraph equation to move charges - whether through magnetic, electromagnetic or electric forces.
Terms: electric dipole (562,000), electric dipoles (48,200), electric dipole dipole (1,300), dielectric constant (1,810,000), dielectric constants (280,000),
Terms: relative permittivity (139,000), ferromagnetic resonance (78,800), paramagnetic resonance (527,000),
Terms: total internal reflectance (9,600), total internal reflection (550,000), lossless power transmission (44), resonant transmission (13,700), resonant transfer (6,410), resonant conduction (127), telegraph equation (12,500),
Terms: electrets (79,800), electret (1,370,000), ceramic magnet (216,000), ceramic magnets (305,000),
Terms: microwave cooling (668),
Boolean: "polar molecules" +cooling (32,400),
Boolean: "ferromagnetic resonance" +dilute (1,920), "ferromagnetic resonance" +bulk (18,000), site:nist.gov +shull (607),
Concept: It is not really current conductivity that matters for power transmission, but rather power transmission itself. A nonconducting ferromagnetic resonant transmission line would transfer energy, without electrical current. It is simply a matter of the power density (MW/cm^2) and the power loss.
Terms: vibrating sample magnetometry (3,180), vibrating sample magnetometer (37,500), magnetic anisotropy (238,000), hysteresis measurement (1,880), magnetic characterization (43,000), magnetic decay (1,710), magnetic viscosity (15,800), magnetic inks (16,600), magnetic powder (134,000), maneto-resistance (17), rock magnetism (92,400), torque measurements (69,800), magnetometry (261,000), magnetometer (2,180,000), magnetometers (1,150,000), gradient magnetometry (535),
Terms: hysteresis (3,980,000), magnetic hysteresis (97,800), elastic hysteresis (1,650), electrical hysteresis (995), ferroelectric (1,340,000), elastic resonance (1,560), magnetic resonance (20,600,000), electrical resonance (24,500), lossless (13,000,000),
Negative Hysteresis in a Laser with Modulated Parameters (thermal energy transfer)
UC Davis FORC Group - What is a FORC Diagram? - Publications
Terms: FORC diagram (727), FORC diagrams (1,490), FORC distributions (116), FORC distribution (428), preisach model (12,500), preisach distributions (38), forcopedia (58), isolated particles (27,300), isolated domains (28,800), mean interaction field (27), single domain particle (1,520), single domain (1,590,000),
Terms: Stoner-Wohlfarth (10,700), Stoner particles (156), fast magnetization reversal (196), spin transfer torque (19,200), spin polarized electric current (490), time dependent electron polarization (1), spin polarised transport (295), spin polarized transport (24,600),
Optimal spin-current pulse of the Stoner-Wohlfarth problem - Paper
Terms: negative hysteresis (1,070), stimulated emission (672,000), spontaneous emission (504,000), lasing (896,000), laser pumping (72,000), parametric resonance (42,400), parametric resonant (280), parametric resonator (169), parametric resonators (443), first order reversal curve (1,470), first order reversal curves (945),
Terms: feedforward (1,310,000), feed forward (1,380,000), positive feedback (31,800,000),
Terms: magnetic tunnel junctions (77,700), Kerr magnetometry (494), tunnel barrier resistance (88), magnetic switching (34,200), magnetic random access memory (85,900), magnetoelectronics (42,100), spintronics (943,000), current in-plane tunneling (174),
IBM RD 50-1 | Rapid-turnaround characterization methods for MRAM development
Terms: squid magnetometry (20,900), magnetoresistance (748,000), magnetic force microscopy (118,000), exchange bias (73,500), hysteresis loop (196,000), hysteresis loops (148,000), Barkhausen noise (29,400),
Robert Shull NIST: Ferromagnetic resonance (FMR) techniques are used to measure various anisotropy energies used to control the magnetization direction and magnetization dynamics in thin films, including shape, magnetocrystalline, magnetostrictive, and surface-induced anisotropy energies in thin magnetic films and interactions between magnetic layers. Recent studies have included investigations of exchange bias effects in ferromagnetic/antiferromagnet bilayers, damping mechanisms, and thermal stability of multilayer spin valve films and strong magnetostatic anisotropies induced by nanotextured substrate materials. FMR measurements are complemented by vector vibrating sample magnetometry, SQUID magnetometry, magnetoresistance measurements, and magnetic force microscopy.