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Capparis pubifolia B. S. Sun (Capparaceae): A newly recorded species of the flora of Vietnam
Sy Danh Thuong,Ritesh Kumar Choudhary,Tran The Bach,Do Van Hai,Bui Hong Quang,Chu Hoang Mau,최상호,엄상미 한국식물분류학회 2017 식물 분류학회지 Vol.47 No.2
Capparis pubifolia B. S. Sun is reported here as a new addition to the flora of Vietnam. It is morphologically allied to C. sikkimensis Kurz but differs due to the gray-yellow color of the hair of the twigs, having more secondary veins on the leaf, trichomes on both surfaces of the petal, and a globose shape of the fruit. Thus far, it has only been reported in the Guangxi and Yunnan areas of China. A description, a line drawing and color photographs are provided for species identification. Furthermore, a comparison of the diagnostic characters with those of related species is made
Optimization of Spin-Valve Structure NiFe/Cu/NiFe/IrMn for Planar Hall Effect Based Biochips
Bui Dinh Tu,Le Viet Cuong,Tran Quang Hung,Do Thi Huong Giang,Tran Mau Danh,Nguyen Huu Duc,CheolGi Kim IEEE 2009 IEEE transactions on magnetics Vol.45 No.6
<P>This paper deals with the planar Hall effect (PHE) of Ta(5)/NiFe(t<SUB>F</SUB>)/Cu(1.2)/NiFe(t<SUB>P</SUB>)/IrMn(15)/Ta(5) (nm) spin-valve structures. Experimental investigations are performed for 50 mumtimes50 mum junctions with various thicknesses of free layer (t<SUB>F</SUB> = 4, 8, 10, 12, 16, 26 nm) and pinned layer (t<SUB>P</SUB> = 1, 2, 6, 8, 9, 12 nm). The results show that the thicker free layers, the higher PHE signal is observed. In addition, the thicker pinned layers lower PHE signal. The highest PHE sensitivity S of 196 muV/(kA/m) is obtained in the spin-valve configuration with t<SUB>F</SUB> = 26 nm and t<SUB>P</SUB> = 1 nm. The results are discussed in terms of the spin twist as well as to the coherent rotation of the magnetization in the individual ferromagnetic layers. This optimization is rather promising for the spintronic biochip developments.</P>