Odpor mnoha magnetických materiálů výrazně závisí nejen na velikosti, nýbrž i na směru magnetizace. Průmyslově se tento jev využívá v senzorech citlivých na magnetické pole, mezi něž v nedávno minulé době patřila i velká část světové produkce čtecích hlav počítačových pevných disků. Teoretické modely této anizotropní magnetorezistence ovšem zatím zdaleka nedosáhly uspokojivé úrovně a shody s experimenty bez fitovacích parametrů se podaří dosáhnout jen výjimečně. Skupina takových poměrně úspěšných modelů se v posledních letech rozrostla o další položku - zředěný magnetický polovodič (Ga,Mn)As., Electric resistance of many magnetic materials depends significantly both on strength and direction of its magnetization. Magnetic field sensors belong to the typical industrial applications of this phenomenon and until recently these included also a major part of the world production of read heads in computer hard-drives. Theoretical models of this anisotropic magnetoresistance, however, have never reached a completely satisfactory level and so far it has been only rarely possible to achieve a decent agreement with experiments without any fit parameters. Few years ago, the family of such relatively successful models could welcome a new member that concerns a dilute magnetic semiconductor (Ga, Mn)As., Karel Výborný., and Obsahuje bibliografii
2-(alkoxycarbonylmethylthio)-6-aminobenzothiazoles (ACABTs) inhibited oxygen evolution in spinacb cbloroplasts. Tbe inhibitory activity of ACABTs increased witb tbe increasing lipopbilicity of tbe molecule. Tbe probable site of ACABT action on oxygen evolving complex is suggested.
A stem-girdling experiment was carried out on an evergreen conifer, the Korean pine (Pinus koraiensis Sieb. et Zucc.), in mid summer in Northeast China. A 50 % higher respiration rate at the upper part of the stem was observed 3 d after stem girdling, and a stable higher rate (1.2-2.8 times) one week later. However, no higher soluble sugar or starch contents were found in the upper bark of the girdled stems in measurements over three weeks. These findings indicate that most of the newly-formed photosynthates were consumed by the high respiratory activity; this is also implied by the strong correlation between the photosynthetic photon flux over the canopy (PPF) and respiration at the upper parts of girdled stems. Moreover, the maximum PPF and cumulative PPF one day before measurement (PPFmax-Y and CPPF-Y, respectively) were closely correlated with the respiratory difference between the upper and the lower parts, but no such correlation was found with the instantaneous PPF (PPF-I) and cumulative PPF on the current day from sunrise to measured time point (CPPF-C). This shows that photosynthates newly formed by canopy needles need at least one day for transportation in order to increase the stem respiration at tree breast height. and W. J. Wang ... [et al.]