E-2 A, B, C A, A, B, A, C m-cresol (NEAT) Rh S m-cresol m-cresol m-cresol x x x ,Rh N N N N H H n Polyaniline emeraldine base E-3 II
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1 E 7, 8, 9 E-1 A, B B A, A, A,, [Novoselov, et al., Science 306, 666, (2004)].,,,.,,,.,. (t a, t b, t c ), [PRB.74, , (2006)],.,, t b /t a t c /t a 0.5., [Ni, etal., ACS, Nano2, 2301, (2008)],, [Zhou etal., NatureMaterials6, 770, (2007)].,.,,., (t 2a, t 2b, t 2c, t 2d, t 2e, t 2f ) (ɛ a, ɛ b ), [JPSJ 77, , (2008), J. Phys.: conf. ser. 132, , (2008)]..,,. 38

2 E-2 A, B, C A, A, B, A, C m-cresol (NEAT) Rh S m-cresol m-cresol m-cresol x x x ,Rh N N N N H H n Polyaniline emeraldine base E-3 II A, B, C A, B, A, C, A [1] (CNT) ( ) 2 ( ) CNT 2 CNT /Fe (Fig 1.) [1] E. Omurzak et.al.,j. Nanosci. Nanotechnol. 7, 3157 (2007). Fig 1. 精製前後の熱重量分析曲線 39

3 E-4 A, B A, A, A, B (SWNT) SWNT SWNT- 24T SWNT- SWNT Fig.1 Optical Anisotropy wt% 10wt% Magnetic Field [T] Fig.1 Optical anisotropies of the SWNTs-gelatin composite film at absorption peak energy of 1.53 ev with respect to magnetic field applied during the sol-gel transition. E-5 II A, B, C C A, B, A, C, 3 nm SWNT FT-IR 7 µm SWNT FT- IR cm 1 Ar Ar Ar SWNT 40

4 E-6 A, B, C A, B, B, C (SWNT) (bright) (dark) 100 T SWNT Aharonov-Bohm dark SWNT T (6,5) (7,5)SWNT dark (8,4)SWNT bright SWNT dark E-7 Ru A A, A, A Ru(0001) TPD H(D) 150 K H 2 (D 2 ) TPD QMS 1.0 ML H(D) 1.56 ML 1.0 ML 1.56 ML H(D) D(H) HD HD 41

5 E-8 Ru A, SELE B A, A, A, B, B, B Ru(0001) 3 300K Ru O D D 2 O QMS 200K 600K D D 2 O, D 2 D 2 O, D 2 D 2 O D 2 O D D D 2 Ru 2 D 2 O 1step D + O ad /Ru OD ad /Ru, 2step D + OD ad /Ru D 2 O, E-9 A, B A, A, A, A, A, B (MCBJ ) STM Au,Ag,Cu I/V = NG 0 (N =1,2,3,G 0 = ) G 0 G 0 1 CuMn MCBJ 4.2K I-V Cu CuMn ピエゾ電圧印印加 42

6 E-10 VO 2 A, B, C, D A, A, A, B, C, D, A, A VO 2 (MIT) X (SR-XRD) (XAS) VO 2 T c = 340 K MIT T > T c T < T c c r V-V c r MIT SR-XRD T > T c T < T c V-V 1 % c r 2 % T < T c XAS 0.1 ev Intensity (arb. units) 381 K 284 K θ E-11 SBA 15 DyMnO3 A, B A, A, A, A, A, A, B, B DyMnO 3 giant magnetcapacitance(gmc) DyMnO 3 Dy T =5K ZFC FC T irr Curie-Weiss 18.5K 1.82K ESR 5 [a.u.] / [a.u.] T[K] FC ZFC T[K] 43

7 E-12 LiCu 2 O 2 A A, A, A, A LiCu 2 O 2 2 LiCu 2+ O 2 Cu 2+ b 1/2 23K LiCu 2 O 2 LiCu 2 O 2 LiCu 2 O 2 LiCu 2 O 2 Al 2 O 3 flux X LiCu 2 O 2 c, Intensity (002) (101) (102) (103) (004) (011)(201) (104) (111) (103)(203)(112) 2θ LiCu 2 O 2 の粉末 X 線回折結果 (105) (006) (210) (114) (015)(205)(301) (302) E-13 Co A A, A, A, A CoO 2 Co / GdBaCo 2 O 5+x 600 GdBaCo 2 O 5+x CoO Hz 44

8 ) l o m p e c s E Pr A, B, C A, A, A, A, B, B, C Pr x La 1 x InAg K T=20K T=20K -lnt 3 3 -lnt -lnt 3 x=0.1 M= 1 H+ 3 H 3 3 /P r mu e ( t y i l bi ti S u H = 5 T T e m p e r a t u r e ( K ) 0. 1 L a 0. 9 I n A g 2 E-15 LaPt 2 Si 2 A, B, C A, A, A, B, C FeAs LaPt 2 Si 2 ( CaBe 2 Ge 2 ) T * 120K T c = 2.2K FeAs T * LaPt 2 Si 2 T * T c (CDW) Lu 5 Ir 4 Si 10 Resistivity (µω cm) 400 LaPt 2Si 2 T* 0GPa GPa 2.6GPa Temperature (K) 45

9 . P a E-16 PrB 6 II A, B A, A, A, A, B, B PrB 6 T I C =4.2K T N =7K PrB 6 P=0GPa P=0.1GPa T I C =5K 3T 3T T 4T 3T 2T 1T 0T H//<111> P = 0. 1 G Temperature (K) E-17 PrPb 3 A, B, C A, A, A, A, A, B, C PrPb 3 AuCu 3 3 [100][110][111] PrPb 3 H=0T 0.43K T q =0.4K 30mK PrPb 3 46

10 E-18 Eu 1 x Ca x Fe 2 As 2 A, B A, B, B, B ThCr 2 Si 2 BaFe 2 As 2 K ( ) T c = 38K [1] EuFe 2 As 2 K Na Eu [2][3][4] Eu Ca 50 [5] Ca Eu FeAs Ca Eu Ca75 190K [1]N.Ni et al., PRB 78 (2008) [2]Qi.YP et al., J Phys 10 (2008) [3]H.S. Jeevan. et al., PRB 78 (2008) [4]T.Terashima et al., JPSJ 78 (2009) [5]A.Mitsuda et al., arxiv 0911 (2009) 0862 E-19 Eu 0.5 Ca 0.5 Fe 2 As 2 A, B, C A, A, A, B, C [1] LaFeAsO x F 1 x (T C =26K) FeAs EuFe 2 As 2 EuFe 2 As 2 190K (SDW) T N =20K Eu Eu [2] Eu 2 Ca Eu SDW 190K T N 4K SDW 1.27GPa (T C =24K) Ca Eu [1]Y.Kamihara et al.,j.am.chem.soc.130,3296(2008) [2]C.F.Miclea et al.,phys.rev.b 79,212509(2009) 47

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