Terms: Electron Spin Resonance (708,000), electron magnetic moment (24,800), electron spin (1,410,000), esr spectra (65,800), esr spectrum (31,900), electron spin lattice (1,690), electron spin orbital (314), nuclear spin electron spin (317), electron spin spin (2,010), electron spin spin splitting (17),
Terms: spin lifetimes of electrons (38), electron spin lifetimes (480),
Boolean: "electron spin resonance" +diffusion (101,000), "electron spin resonance" + (708,000), "electron spin resonance" +ph (155,000), "electron spin resonance" +temperature (246,000), "electron spin resonance" +pressure (139,000), "electron spin resonance" +"chemical shift" (14,500), "electron spin resonance" +vibration (28,400), "electron spin resonance" +ultrasound (21,400), "electron spin resonance" +ultrasonic (22,000),
Boolean: "electron spin resonance" +"solvent effects" (9,190), "electron spin resonance" +solvent (75,000), "electron spin resonance" +solvation (16,200),
Experiment #2B: Electron Spin Resonance Spectroscopy - NMR ~ diamagnetic (paired electrons), ESR ~paramagnetic (unpaired electrons including excited states of diamagnetic molecules. “chemical shift” ~ “g factor” in ESR close to free electron 2.0036 Metal complexes g factor changes substantially with electronic structure of the metal ion. NMR coupling constant (J, expressed in Hz), corresponds to the hyperfine coupling (or hyperfine splitting) constant in ESR, with the symbol a, expressed in gauss or MHz.
42.577 MHz/T, 28026 MHz/T = 2.8026 MHz/gauss
Terms: electron spin relaxation (23,700), electron spin echo (32,700), electron spin echo spectroscopy (1,040), spin polarization (293,000), spin polarisation (39,200),
Terms: spin diffusion length (13,400), spin coherence (52,700), momentum coherence (255), spin polarized (558,000), spin depolarization (2,880), spin correlation (74,800), spin decoherence (15,800), electron spin decoherence (1,500), electron spin dephasing (494), spin polarized transport (38,200),
Boolean: "electron spin relaxation" +liquids (1,140), "electron spin relaxation" +solids (1,690), "electron spin relaxation" +plasmas (560), "electron spin relaxation" +lipids (327),
Boolean: esr +"in vivo" (200,000), "electron spin resonance" +"in vivo" (93,400), "electron spin resonance" +noninvasive (9,950),
In vivo electron spin resonance spectroscopy: what use is it to gastroenterologists? - the ESR timescale in the time domain is nanoseconds and not milliseconds as in NMR
Terms: electron paramagnetic resonance (566,000), esr spectroscopy (89,300), microwave spectroscopy (106,000), molecular rotational resonance spectroscopy (10), molecular rotation spectra (970), molecular rotation (60,000), in vivo epr (12,600), in vivo esr (11,100), in vivo electron (10,400), in vivo microwave (64), rotational spectroscopy (43,500),
Boolean: "electron spin" +"coherence length" (3,810), esr +microwave (267,000), "microwave spectroscopy" +"in vivo" (995),
Theory of electron spin decoherence by interacting nuclear spins
Terms: electron spin spin (2,010), electron spin interactions (1,550), electron spin coupling (661), nuclear hyperfine structure (653), hyperfine structure (187,000), hfs splittings (62), hfs component (306),
Spin relaxation of conduction electrons - electrons have a relatively large spin memory. Conduction electrons spins last longer than momentum states. In a typical metal, momentum coherence is lost after ten femtoseconds, while spin coherence can survive more than a nanosecond. As a result, the spin diffusion length over which electrons remain spin polarized is much longer than the mean free path over which their momentum is lost.
Boolean: "spin flip" +phonon (27,300), "electron spin" +phonon (71,300),
Terms: spintronics (1,370,000), elliot-yafet (565), yakonov-perel (2,180), Bir-Aronov-pikus (604),