No.49 2004年 研究報告書
Contents
1. D 55 3 174 1992 2 ASTIA100 FUJIFILM RESEARCH amp DEVELOPMENT No 43 1 19982. 3 1 2 S Fig 3 S Fig 3 New yellow coupl
3. 500rpm 1 7500rpm FePt tC Io ies Fisda C V 51 9 9545 A Go Es Ur ToS a Ce Fig 4b C V 22 5 C V 37 9 50nm Fig 4a FePt nanoparticles prepared with a magnetic mixer
4. TOR Fig 3 New G PROLASER
5. 800 60 Fig 5 Nano Structure gt Grain Current Grain Fig 5 Comparison of the current grains with the nano structure gt grains BE RA Yenus UV X Jl cd vez hl FLY CF Night amp Day 0 BH
6. T 30 100KB eg TEMEREUCRRA p Ue MI RN
7. Hig 4 S 0 CH Wo
8. 2002 CMYK El V L Wem Image Inte lligence Fig 1
9. 1 12 273 Scheme 1 WREX PPD QD I HA PPD QD IT PPD
10. 8 Imaging and Information RZ Editorial Board Editor in Chief Shunji Takada FA Editors Yoshio Inagaki Makoto Tsugita Z H Bl Hiroshi Onishi Takashi Naoi K Kiyotaka Kobayashi Makoto Nagao a Chuzo Kobayashi Tomizou Namiki XE E Shinji Sakaguchi Yoshihiko Makino 49 16 3 22 FE J nn w E a ARR R amp D
11. Ever Ricn 4 E Ever Rich
12. BERRE Venus 800 Venus1600 2 a peer TIL ELAS HUE LILAA T A E pd Ye Be
13. 4 Fig 1 Dmax Lez AC CHITEESA 7 BILOMILe TO TWH RR AU Characteristic Curves ue 3 New FUJI G COLOR FILM PROLASER FC d 777 Previous Type o 1 5 x d 4 E Fi BL Fi p yRL 1 E a with previous type in characteristic curve 2 2 2 1 NE SEOs Aan Dmax
14. Fig 4 Three window A B SS A B gig 4 shell core Gray level of pixel intensity Fig 4 Phosphor distribution images of microcapsules containing diazonium compounds obtained by the three window method a diazonium A b diazonium B c line scan profile of phosphor distribution 46 ESI TEM VA
15. XE FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 1 Image showing extracted flesh tone areas Original image 2 Image with edges superimposed 3 Image with periphery removed Morphological separation processing using a morphologic filter SEL Image with side touching contiguous areas removed 5 Image showing the most RU Pisa se palais image likely face candidate Narrowing of candidates down to the most likely one based on geometry and internal structures Fig 6 Face extraction technology
16. 0 10 20 30 40 50 43 596 amerite 217 6 5 10 0 Fig 2 User s survey on the need and claim in picture taking FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 3 Venus 1 Venus800 aa dae diii de agri Sk i piv eee i ee Photo 3
17. APC Photo 3 ILLE 33 3min 30min 3min 30min Previous Type Mew Type Photo 3 Improvement in latent image stability 2 5
18. FR330 FR340E C Imaging section New densitometer Dual use carrier Paper exposure section New sorter LED light source Image processing section E Leak sensor Paper pass Filter New wiper blade crossover Fig 1 Schematic drawing of frontier 340E 3 FR330 133 APS LED FR330 Frontier 340E OWE 3 1 LED FR330
19. 1b s 2 ESI TEM OsO4 2 aq UCT Leica 70nm ESI TEM JEM 2000FXZ GIF200 GATAN FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 200kV TEH LR ER TOF SIMS TRIFT II PHI Gar 15kV BSI TEM 2
20. ET Conventional aerial turnover New wiper blade crossover Fig 5 Crossover structure FR340E Fig 6 PS1 PS4 AL 3 PS4 FR340E PS4 PS1 PS3 20 u m
21. BLO 1 K Yokota et al J Soc Photogr Sci Technol Japan 64 5 298 2001 2 7 7p eR RE BE 16 1999 3 EFBE 5 64 2 92 2001 4 No 44 7 1999 FUJICOLOR C3 Night amp Day ANY T GUY C3 BER A Venus Jl cd vez hl Night amp Day 0 BH UDC 771 531 31 067 087 Velvia 100F 100 ASTIA 100F 48 SEES Development of New Color Reversal Film FUJICHROME Velvia 100F and 100 and ASTIA 100F Masayuki KURAMITSU Yutaka MAENO Naoto MATSUDA Hid
22. 4 1 5 1 JAVA MPV CAM 59 UDC 655 226 26 655 226 251 4 CTP Mhk LD N
23. AW e IE ESE E
24. FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 1 61KB Fig 7 File size compression by color reduction BS CWA CPO Sc 4 H1S 4 IP 5041S 505i FOMA 304i AU Z lt
25. 3 PROVIA puj 3 ze dH 0 Velvia ZU 0 ASTIA ISO100 Hig 1 23580 A FLU XI DALTuTAHLLeRa LO iP Bota AE SEL 35 V SERERE J gum E a m H mW Fig 1 New line up of FIJICHROME F series Fig 2 Color reproduction of the new FUJICHROME films HE CHA Hig 2 3 2 2 Velvia100F Velvia Velyia100F
26. 21 New G PROLASER FC FT OFF it BLOBS MPR OI CA EU oe Clee CV t sh
27. up oa as US Fig 8 Fig 8 Components of the changeover mechanism 7 Venus v Night amp Day MET IV A OTEEEC
28. A logY 0 6 4 HOEY Y Cd 4H EO it eee eat een ee DE rm cred ls ris gs 253 L D mt llWh scnosatisc 3 i in osa d aer f id AlogY 06 LI E 0 l it i E E Aane iluzzanarke Fig 7 Relative illuminance histograms of a high contrast scene D Uo AOL DO D ZU D D D
29. mm Intelligence 23 FR re De gs Dg KS T a 22 1991 b LuxScan4500 I 31 1 1994 2 CMS a CMS Professional DTP 2001 6 b 2000 c 2001 HERRENA T Ta de d
30. 1 J 2 Solution without SRA with SRA JU 1 bt Sen Dye SRA complex Effect of SRA 1 l l Photographic Materials Captured by Oil droplet Captured by Oil droplet Scheme 3 Role of the new stain reducing agents FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 8 A
31. 3 1 4 ON OFF 1 120 d OG ON ENHEZOERUEAMS cas id 25 Jya AA y FEDI AWD RA Lanm vy Fig 6 65 GEE 429 1 120 Fig 6 Shutter mechanism 2 10
32. 533 8 APR Acceptable Print Ratio 8 3 Table 3 A 3 A Excellent B Good C Poor D Very Poor 4 3 1527 wwe ulsgS wu rain E eA S ZL ES y Image Intelligence Table 3 Classification Standard
33. X 9 Fig 3 Image Intelligence e Fig 3 Effect of Image Intelligence for a medical image A A
34. 4 1 5 Fig 7 100 0 x 1 AAC BEL
35. ON OFF 1 120 F14 er ky Table 1 Specification of Utsu rune desu Night amp Day SUPERIA Venus1600 SUPERIA 400 f 32mm f 32mm 2 1 ON OFF F14 F6 2 ONOFF 1 120 1 45 mm 108 X 54 X 335 108 X 54X 34 9 8 90 6 Night amp Day 1 1 4 lL
36. GY G4 ese YCRV ete 7 o CY 2003 12 H 25 H GR LF T 250 0193 210 T 250 0193 210 Ashigara Research Laboratories Fuji Photo Film Co Ltd LF Division Ashigara Factory Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan Minamiashigara Kanagawa 250 0193 Japan ELE RA Yenus VU X JB cd vez VC Night amp Day 0 EH 2000 ISO800 A 800 ISO800
37. gt m m Dm Tlie LL parum a TI mil Co oe E Wi x res es PII Cn partes Ns le DIT LI xz 4 Li LI LE gN A i vox DOS Fig 1 Plate making system for thermal printing plates 31 Fig 2 800 850 nm 2 ESETA A Luxel Platesetter T 6000 T 9000 MEK DL FL IE UMIL Fig 2 Exposure to a thermal plate 3 2 Fig 3 LP940H I LP1310H II veh
38. H ZAL dj BOSSES X DLC um d Tb L MEORE 2 1
39. SN nom iba 2003 9 22 H T 351 8585 3 11 46 Electronic Imaging Products Division Fuji Photo Film Co Ltd Senzui Asaka Saitama 351 8585 Japan FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 9M 7M 5M 3M Pixel Number Mega pixel 1M 1999 2000 2001 2002 2003 2004 2005 Year Fig 1 Trends of pixel number increase of digital cameras in the market 2000 CCD DU YY EM S N T 981 3493
40. o1 3D o CEC
41. 3 BL B 405nm LD G 532nm SHG R 657nm LD x Fig 4 hy Dye R3B R Dye RB R Fig 4 Basic photopolymerization scheme for dye borate photoinitiator system
42. 9 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 1 2 4 2 4
43. Fig 2 Fig 2 Image samples of Cho Miracle 56 NTT 22 1 PHig 3 2 i Fig 4 3 3 1
44. No gt Fig 6 b Flow chart of the AAC replenishment method M FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 WHE COKOR AAC 1 B i
45. PVA SEA L7 Fig 9 PC _ PVA 92 1 IO WP Fig 9 Schematic cross sectional structure of the multi layer recording material 0 0 0 mm Fig 10 Spectral sensitivity photographs of the recording material Fig 10 3
46. AAC Advanced Activity Control 4 1 2 pH pH ATS DT 2 2R Fig 4 wc DT 1 1R
47. V As Photo 2 Plastic molded developing tank and side racks 68 LP940H ll LPI310H Il OB 5 LCA 40 AAC TOCA SE CHA K MARES I Sd QIIIA 6 7W 0 uv B E RET FIA YO VAT ABCA CTON Cb OCH 0 D SE Z5
48. 1 300 2 1 AATH ARTE 5 hola hands hold hands LoFs hold Lt hole 2 Toog 1 1 FHig 1 2
49. ISO 2 100 HV 2 VelviaS0 RMS 8 Dmax BL SC eC eS ee D MERE 25 70 100 2 3 Velvia100 Velvia100F
50. APC IEVER BEAUTY PAPER Fig 3 Temporarily trapped photoelectron and latent image formation 3 2 RR Resistance to Radiation Technology um n EVER BEAUTY PAPER RR New G PROLASER FC FT OFF lt Photo 4
51. ESI TEM Fig 3 Fig 40iL9 amp 2V4 ZORTE TPP 20 30 HERO MULDER OPEL OC 4 ESI TEM Sil
52. e Fig 2 4 2003 10 24 T 250 0193 210 Ashigara Research Laboratories Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan 70 1 Gb in 0 53X0 057 wm 0 12X0 042 wm 0 025X0 025 wm DISKCON 2002 10Gbin E d 100 Gb in 1000 Gb in a 1 Tb in Fig 1 Unit area required for magnetic recording A Fj Nm SL eU EN Fig 2 Thermal fluctuation diagram of small size magnetic particles T 250 0001 2 12 1 R amp D Center Recording Media Products Division Fuji Photo Film Co Ltd Ohgi cho Odawara Kanagawa 250 0001 Japan Ji 3 ENN ES FePt 35 X U FePtCu BHF WS OP
53. LD NS HEL Z EROTEH C 0 U wee Fig 3 Tg Tg 160 200 240 mJ cm 280 50 70 90 110 130 72 Tg C Fig 3 Relationship between the Tg of the acrylic polymer
54. 10 _ 8 E 6 KH 4 2 0 0 100 200 300 400 500 mol9 Fig 6 Grain size and monodispersity vs oleylamine amount used for nuclear formation Fe Pt Cu NU 3 2 KET Fed Ptk VR Fe Pt gmig 7a FePtCu 3 Fig 7b 1 Pt 45at 100 9Fe 9 Pt 80 60 at 40 20 0 0 2 4 6 8 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 2 Pt 45at 40 C 100 Fe e Pt Q 80 w 60 UB 40
55. 9 7 SERED VY PHI NA I FVANTIVUVY bY AF AOE SQ R f CH CH CH CH CH R N zZ N A 657nm SS SS Rt P CH CH CH R Zt N 532nm 405nm X a Uu R2N G Yo 9 X an Y i R 9 3 No Rs w R C R gt N N sh K No p X X
56. Fig 5 3 DT 2 2R u DT 1 1R f x died S xe dcr o s Fig 4 Respective relationships between the replenishment amount electric conductivity and replenisher concentration RIES Fig 5 Replenishment sub system in LP940HII and 1310HII 4 1 3 AWEL
57. D 9 2 TOF SIMS kV Gr 2 TOEF TOF SIMS nm 29 45 3 31 ESI TEM TPP triphenyl phosphate
58. FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Fig 2 Cross section of LD NS and its image formation 4 4 1 LD NS Illos
59. 62 1 44 49 1999 FUJICOLOR EVER BEAUTY 25 UDC 621 375 826 681 7 069 24 T NV a SHG RH Jr Development of Blue Waveguide SHG Second Harmonic Generation Laser Masami HATORI Hideo MIURA Isao TURUMA and Shinichiro SONODA Abstract We report a newly developed blue waveguide SHG Second Harmonic Generation laser The SHG device installed in our laser which is characterized by preiodically inverted domains provided on a 3 off X cut LiNbO LN substrate have achieved an SHG efficiency 10 times higher than that with an X cut LN substrate The laser consists of an SHG device and a laser diode LD butt coupled with each other and an external wavelength locking optical system RF drive operation the long external cavity and the 5 angle cut output edge of the SHG device have achieved a smooth output characteristic Totally the blue SHG laser have realized an output power of 1 mW at 474 nm wavelength and a long life with a low cost By using the blue SHG laser the new digital photo printing systems Frontier 330 340 achieved an extre
60. 1 lll z ELI UA Fig 10 Screen of the order entry on Frontier 340E 23 Fig 11 Print Size changing operation on the previous model and Frontier 340E 7 FR340E CP 49E CP 49E Dry to Dry 1 40 CP 48S Dry to Dry 3 40 Les D 3 2 7 1
61. Fig 5 New cyan coupler 34 3 Fig 6 Hig 7 2 Fig 8 25 70 RH 100 Photo 2 IRT 40
62. 500 2 400 LL g 300 lt E F 200 y 1 00x 0 3 G S 100 Y 0 0 100 200 300 400 500 Average for JSCC method gt gt LL D a z y 0 97x 2 9 0 60 120 180 240 300 Average forJSCC method 300 240 LL g 180 Ka e P 3 y2099x41 7 S 60 i Y 0 0 60 120 180 240 300 Average for JSCC method BER IA TAY AF AOS 2 PRHIE Standard Method in FUJI O 100 200 300 400 500 Aveage for JSCC method 500 400 LL S 300 O E 200 g S 100 0 O 100 200 300 400 500 Average for JSCC method 800 5 600 8 d 400 E E 7 y 0 96x 2 8 200 0 0 200 400 600 800 Average for JSCC method Correlation between the average for the JSCC transferable method and the standard method in FUJI Fig 4 24 FDC FDC GGT GOT GPT CPK LDH ALP OFEDE 9E LORE OD
63. Po Fig 8 Comparison of the schemes for CO fatigue prevention in the current and new systems 4 3 Photo 2 LP 940HI
64. 4 2 61 LD NS Gala LD NS
65. Fig 1 SAA HE Fig 2 m 8 fp Ei Fig 2 Mechanism of image formadion in the photo and heat sensitive layer 2 2 3 GE Fig 3 leas ics n mmis oe eit athe FETE layer structure
66. Fig 6a f v 66 907 Il LPI310H I OM lt lt PRBS No Fig 6 a Flow chart of the current replenishment method 41 4 AAC AAC Fig 6 b
67. RORE I YARE ld 1 pH pH 37 AJ BEORYY BYU TF VARIA pKa p BE 2 e
68. AVC Advanced V Coupler Technology 3 AVC PPC HDS Fig 2 hU 0L ue Bt 6 Pe Uis 2BEHCIOARTERK PROLASER AC i Fa Tante GEE Le Pe eS BSS 2 a 4 4 MR E Fig 2 Image storage characteristics 34 3 1 APC Advanced Photoelectron Controlling Technology
69. SHG 2 3 LD R SHG SHG SHG SHG Fig 2 Schematic butt coupling structure of a LD and a waveguide SHG device 27 3 2 LN SHG 9 DONE CH AR SHG LN Z Z KV mm
70. VRAM LSI 3 CCD DSC D SEXO D D fl per Pom SERI Ivf uw PITA YH 7 CILCORE D CCD DSC Fig 7
71. SERED VY PHI NA I FVANTIVY bY AF AOE 4 3 Web Sie ae a wan eee tinal ki ptor IC ERHI Eg Fig 13 Print Sample 1 This system Fig 14 Print Sample 2 Pictrography PG 3000 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 1 8 32663 2 No 48 22 2003 3 9 Chatte
72. SHG 2003 9 H 30 T 418 8666 200 Fujinomiya Research Laboratories Fuji Photo Film Co Ltd Oonakazato Fujinomiya Shizuoka 418 8666 Japan FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 2 21 3 Fig 1 1 Fig 1 Main components of the photo and heat sensitive layer Color Former LAF KERK Color Developer LAP LAES 39
73. Os JCCLS HECTEF Certified Reference Material CRM Enzyme Reference Material ERM GGT GOT GPT CPK LDH ALP 6 JCCLS L FDC BER IA TAY AF AOS 2 PREIC FDC
74. Hig 4 Previous Type Tum Photo 4 Photomicrographs of the silver halide grains used in the previous and new types LELL ILLUEML EL I MARETA A i Fig 4 Increase of fog density in the red sensitive layer as a function of the relative amount of radiation FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 4 EVER BEAUTY PAPER New G PROLASER FC FT PROLASER PROLASER CRYSTAL IPROLASER
75. 2003 2 Venus400 800 1600 Venus800 UDC 771 531 31 067 064 771 313 3 Venus Night amp Day EU LE He Development of High Speed Color Negative Film Venus series and New Concept One Time Use Camera Utsu rune desu Night amp Day Masayoshi TOYODA Yoichi MARUYAMA Norihiro OHMAE Yuji MIKAMI and Yoichi SUGA Abstract In February 2003 Fuji Photo Film Co Ltd proudly announced the introduction of new series of color negative films Venus 400 800 and 1600 together with a new concept one time use camera Utsu rune desu Night amp Day Venus series have realized superb image quality and faithful color reproduction by utilizing Fuji s proprietary nano structure gt grain technology super effcient coupler technology and fourth color layer technology Utsu rune desu Night amp Day has realized a new concept of picture taking based on a new s
76. CURRENT 1600 VENUS 1600 Photo 4 Merit of VENUS 1600 xX 3 3 Venus Fig 4 Current ISO800 Venus 1600 R M S Ae R M S R M S Be R M S Fig 4 Granularity deterioration due to radiation damage 3
77. Image Intelligence 2 9 Fig 2 Image mmtellisence 2003 F 10 H 31 H T 258 8538 798 Miyanodai Technology Development Center Fuji Photo Film Co Ltd Miyanodai Kaisei machi Ashigarakami gun Kanagawa 258 8538 Japan Fig 2 Effect of Image Intelligence for a graphic arts image FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 eg X 1975
78. FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 LPO40HII LP1310HI 5 FKE RRR TEM pes RANA SO RRO Fig 3 Sectional view of 940H II s section with its plumbing 3 3 1973 Agfa Zo OH OH TOR HP S
79. Imase Intelligence 3340 o Image Intelligence 2 Fig A Fig 5 Technologies composing Image Intelligence 42 SEM Hig 6 f
80. PZ PG SG Ever Rich Ever Rich ik 2 1cc A4 WEMA I TA Fig 1 2003 12 25 H T 250 0193 210 Ashigara Research Laboratories Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan
81. BE CCC BE 2004 1 8 A T 250 0193 210 Ashigara Research Laboratories Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan 32 Photo 1 2 New 7 G 3177 7 4 v 4 PROLASER FC FT
82. 4 CCD Venus Night amp Day Velvia 100F 100 ASTIA 100F Frontier 340E SHG New G PROLASER FC FT PZ PG SG Ever Rich ESI TEM Image Intelligence NTT CTP ILD NS LP940HII LP1310HII FePt FePtCu
83. D O 40 3 3 1 R HO NOS O C C CH NE X O gt P 4 AN 3 2
84. Fig 4 Effect of Image Intellgence for a candid photo BH FRY ZES bT EIRT rain et amp AS ZOE y Image Intelligence MZAA a y REITA TL LARS TRAE PRIET 4 TAU I 4 4 1 Image Intelligence
85. V Photo 2 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 a Previous Type b New Type Photo 2 Comparison of New FUJI G COLOR FILM PROLASER with previous type in image quality 2 3
86. ICAL b 9x Velvia100 12 Velvia 100F 100 ASTIA 100F OE 2 4 ASTIA100F ASTIA 2 Velvia100F Velvia100F RMS 7 2 ASTIA Dna me Bags Velvia100F NIS es
87. 4 5 6 7 4 4 FDi FDi Fig 7 9 D2 Exif 7 7 PC Frontier 1 i 1 3 3D
88. FDC 6 GGT GOT GPT CPK LDH ALP ERM SS 2 2 1 E JSCC GGT O other 0 20 40 60 80 100 B JSCC D other GOT 0 20 40 60 80 100 B JSCC GPT O other 0 20 40 60 80 100 9490 1996 2463 1999
89. EF6 2 Ache RAE 2 2 Fig 7 fae gt Aca E Fig 7 Vertical cross section of the lens unit F14 F6 2 UY Be DAICO CHICe Oe CI Fy Va DETU CT UE gov Lcd Night amp Day 3 1 3 ON OFF EFA Feel
90. 76 6 226 229 2003 a NY 136 FIJE Y X F 55 12 483 488 2002 ns 2 ali X EVER BEAUTY PAPER FujiFilm Res amp Dev No 47 1 6 2002 N 4 Jm 3m ox FujiFilm Res amp Dev No 47 7 11 2002 S IKAN A Fe o THES RB Frontier390 FujiFilm Res amp Dev No 47 24 30 2002 D H N TG N os St M nU ak IR on A on BR Ej K SR oo AE aj pg FP100C FujiFilm Res amp Dev No 48 1 4 2003 F WW ot ou w EH Frontier330 FujiFilm Res amp Dev No 48 15 21 2003 Jb E BE OF Sa OR k PS EDEN M X SR gt IN DR YPIX7000 DI HL FujiFilm Res amp Dev No 48 39 46 2003 BY XE E gt RES FujiFilm Res amp Dev No 48
91. Fig 5 WE ORE T NA eTe Fig 5 Structure of the image processing library biri oe reru pg ip i gen a Ts FE 2 rE moncioraci pa EIC raveris pa Pi El maar plaid rane pg s NIT mh rE pq a pr Pull Push mt cag GIRO Fig 6 Fig 6 Example of special orders from designers
92. 17SLPI Line Per Inch 1 98 5 2 Fig 6 CTP 30 e LD NS Set NI y 0 20 40 60 s Values G N im LK IF102 7 A Fig 6 On press development performance of LD NS SES BE ZU CTP hk LD NS OZE 10 CTP 5 3 Table 2 CTP E
93. D No 47 1 6 2002 PROLASER EVER BEAUTY Ri 35 UDC 772 19 067 021 6 PZ PG SG Ever Rich HRS dhi Development of a New Pictro Paper PZ PG SG Ever Rich Kiyoshi IRITA and Takuji KOSUGI Abstract In June 2002 Fuji Photo Film Co released a new Pictrography paper PZ PG SG Ever Rich Its image stability against ultraviolet light has been improved by the introduction of a newly developed ultraviolet light absorption layer This paper reports prominent features of PZ PG SG Ever Rich 1 2002
94. SRK Photo 1 Frontier 340E 2003 9 4 UR T 250 0193 210 T 258 8538 798 Ashigara Research Laboratories Miyanodai Technology Development Center Fuji Photo Film Co Ltd Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan Miyanodai Kaisei machi Ashigarakami gun Puji Photo Film U S A Inc Kanagawa 258 8538 Japan 555 Taxter Road Elmsford NY 10523 U S A FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 19 FR340E FR330 FR330 CP 49E GUI Graphic User Interface FR330
95. amp REALM ICI AENA RYA Oma Le Rw eS B 3 2003 9 2 H T 418 8666 FEMU E E HTH AH E 200 Fujinomiya Research Laboratories Fuji Photo Film Co Ltd Oonakazato Fujinomiya Shizuoka 418 8666 Japan Photo 1 CX 400 EIRO 4 RUEIRO An HRT E AL CT SEL ESI TEM Galembeck 200nm Poly styrene co 2 hydroxyetheyl methacrylate ESI TEM ESI TEM TOF SIMS Graduate School of Engineering Kyoto University 44 ESI TEM IK 6 NU VIL FOATUNORM AME F 4 2 COMP MA 50nm TERE OIE AC dh S RETE
96. FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 EFDC JSCC GGT GOT GPT CPK LDH ALP 95i 3979 JSCC FDC ERM TROD EE NCCLS EP 9A X FDC Y Fig FDC 1200 600 FDC system 300 0 300 600 900 1200 Standard Method in FUJI 800 600 FDC system 400 6 y 0 996x 1 8 3 r 0 999 200 n 60 0 200 400 600 800 1000 Standard Method in FUJI 4 e y 0 990x 0 2 r 0 998 n 59 O 200 400 600 800 1000 Standard Method in FUJI 81 Cn o o FDC system o 500 e e v o S y20 988x 5
97. LD Ar TN HS SHG LU FORE 1 KA 23 788 794 1995 2 A Onoe S Miyaguchi T Tohma Proceedings of the Fourth Microoptics Conference and the Eleventh Topical Meeting on Gradient Index Optical Systems 154 157 1995 3 K Mizuuchi K Yamamoto H Sato Appl Phys Lett 62 1860 1862 1993 4 M Yamada N Nada M Saitoh K Watanabe Appl Phys Lett 62 435 436 1997 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 5 K Mizuuchi K yamamoto J Appl Phys 72 5061 5069 1992 6 S Sonoda I Tsuruma M Hatori Appl Phy Lett 70 3078 3080 1997 7 S Sonoda I Tsuruma M Hatori Appl Phy Lett 71 3048 3050 1997 8 23 788 794 1996 9 s 26 256 260 1998 31 UDC 771 531 3 067 063 New G PROLASER FC FT WESS f Development of New Fuj
98. 22 Leak sensor re d Cascade b qu bl Le f P1 PS2 PS3 PS4 Bleaching i Q MA ON and fixing eue HO OWO Color Lad 1 14 1 developing A AY j Blade LLL IRE 2 seal and squeezee Ui WW i j Pleats filter Fig 6 New paper processing tank 5 2 FR330 1 4 FR330 FR340E WA CHT amp FIA UL im REC FR330 4 ae on ERE or FR330 fy J HTH Pet CW eo Photo 2
99. OR T 421 0396 4000 T 421 0396 4000 Research Dept Yoshida Minami Factory Printing Materials Research Laboratory Fuji Photo Film Co Ltd Yoshida Minami Factory Fuji Photo Film Co Ltd Haibara gun Shizuoka 421 0396 Japan Haibara gun Shizuoka 421 0396 Japan Now retired 2000 DRUPA Cf JL BE H Jv CTP nl 00 FE 2002 Brillia LD NS 60 EEE v Jo CTP HN LD NS BE 2 LD NS CTP CTP Table 1 Fig 1
100. Table 2 POM Table 2 Examples of Image Expression Technology 1 SEW 2 3 3D
101. FePt FePt Cu FePtCu 330 375 Tee DOR WELL Sab Pe FO EE RATIO COP AWE HARB k U Cu OXIER Fig 10 30 min FePt H2 350 400 450 500 550 600 C Fig 10 Effect of annealing temperature and atmosphere on coercive force 19 FePtCu Fig 11 Fe Pt Cu 35 14 40 7 25 7at
102. 2003 109 110 2003 EH M dx BE We TI Ld 2003 111 112 2003 SE H Ob 3 D D nm M 2003 117 118 2003 ca SE WR Se XM hr H E AL K anm 2003 119 120 2003 ie aul T i 1 X Er 2002 4 5 2002 Makino K Yamaryo S 2002 10 11 2002 Mimaki Y Kawai K i E 2002 92 93 2002 E ch SR Ed gt pH i E 2002 94 95 2002 L Ev n sm 2B At We uM zu
103. 3 2 3 1 304iS 1 CPU Fig 4 System view of Cho Miracle FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 or HAM i 2 i 30KB 100KB
104. GE il a 1 nl l FDC No 44 72 1999 2 15 6 2003 3 33 236 2000 NN a H Bd UK TR ET 139 1999 5 Gb ER Be S 25 55 2000 6 EHE LA At Ae 25 141 142 1996 7 NCCLS Method Comparison and Bias Estimation Using Patient Samples Approved Guideline EP9 A 15 17 1995 ER e FUJI 66 7r AU DRT CHEM 83
105. 3 67 WER D c 1 y y Gu 0 B MAS SED 3 HR OD 88 3S E f GL Guic Fig 7 Developer ingredients in the developing tank 4 2 DANK See ac um decr o B Z2 PS900V PS1300V Fig 8
106. 8mm SHG 30 50mW SHG 300 Wem YAY OSH 1mW SHG SHG 9 9 2 2 SHG Fig 5 HE ie O 3deg off X cut L 10mm A Xcut L 6mm SHG Power mW 10 100 150 FM Power mW Fig 5 SHG conversion efficiency of waveguide SHG device on X cut and 3 off X cut substrates 4 SHG LD 3 SHG Fig 2 LD SHG 3 um 0 1 um
107. UV LD NFP Near Field Pattern 1X3 um SHG 3X6 um OW 60 4 C 25 70C TN IHS SHG LU FORE 5 LD nm RES SHG cia SHG EIE BA SHG LD F P LD 9 t LD DBR LD n e A
108. 1 4 4 1 FR330 FR340E 20mm sec 28mm sec PC FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 HL DSP FR330 DS
109. 2 Photoinduced Intramolecular Electron Transfer between Carbazole and Bis trichloromethyl s triazine Generating Radicals FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 A f HTK oS Bl fi TK AE fi KR zm EN Kawamura K Aotani Y Tomioka H 30 9 856 857 2002 FujiFilm Res amp Dev No 48 87 91 2003 51 13 3544 3545 2002 63 3 1144 2002 FujiFilm Res amp Dev No 47 44 49 2002 82 253 2002 50 10 690 693 2002 2002 736 2002 2002 53 2002 31 6 392 396 2003 2003 157 158 2003 J Phys Chem B 107 19 4579 4586 2003 143 Theoretical Study on the Structures and Absorption Properties of Yellow Azomethine Dyes Two Photon Induced Fluorescence Properties of a Class of Conjugated Ketone Derivatives Permeability of azo d
110. Fig 4 21 Processing time P1 P2 PS py Dry to Dry Frontier 330 EEEE 3 min 40 sec Frontier 340E EZ te 1 min 40 sec N A PROD u 1 Frontier 330 J 650 prints hr Feed speed 20 mm sec Frontier 340E 900 prints hr Feed speed 28 mm sec Fig 4 Comparison conventional paper processor Frontier 330 and new paper processor Frontier 340E Improved initial print dry to dry Fig 5 FR330 FR340E
111. oo 103 BabBeEwi EO EE 110 PRAT 0858 RB SEDE A eadi TES 115 PFYINMAAT WAKRAOPK SF EU E DARE 121 BRIN MFT 129 ee 135 FUJIFILM RESEARCH amp DEVELOPMENT No 49 CONTENTS Originals Super Dynamic Range Image Processing System Using a New Structure CCD S LE Naoki KUBO Kazuhiko TAKEMURA Kaoru ADACHI Toru NISHIMURA Hiroshi TAMAYAMA Kazuki IWABE and Tetsuo YAMADA ee 1 Development of High Speed Color Negative Film Venus series and New Concept One Time Use Camera Utsu rune desu Night amp Day a Masayoshi TOYODA Yoichi MARUYAMA Norihiro OHMAE Yuji MIKAMI and Yoichi SUGA 6 Development of New Color Reversal Film FUJICHROME Velvia 100F and 100 and ASTIA 100F ION Masayuki KURAMITSU Yutaka MAENO Naoto MATSUDA Hideo IKEDA Hisashi MIKOSHIBA Toshio KAWAGISHI Shigeru KUWASHIMA Tetsuro KOJIMA and Shinsuke BANDO 11 Development of Digital Minilab System Frontier 340E tt Fumio MOGI Katsuhiko TANAKA Teruo TAKANASHI Takashi YAMAMOTO Tat
112. Table 2 Photo 2 Sorter of Frontier 340E 6 i GUI DOED OARA k TELO FER Ric koe ERR FT ZANLI ZFR Frontier 340E OAZE F Easy amp Simple GUI 61 Easy FR340 Basy a b
113. Fig 1 FoPtCuy itt GERD AFM Ra 0 55nrm Fig 14 Surface structure of a nanoparticulate FePtCu magnetic layer on a glass substrate by AFM Table4 Magnetic Properties and Surface Roughness Ra of Nanoparticulate FePt and FePtCu Magnetic Madia FePt JFePtCu SveHeeAr 5 H2 Ar 250 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 0 100 200 300 400 500 Reversal Flux Density KFCI Fig 15 Output property of the nanopaticulate FePt and FePtCu magntic media using a glass substrate 5 KO Eu ELIT AEA B k ORELL A3 8 Oe v HF 7 dr T 0 BIE 3 9nm FePtCu Pf eC ERAS ArrH2 350 375 C REHE Ra 1nm 1 10Tbpsi 1 Sun S Murray C B
114. 2 Sth C CATs 100 NC 80 P 70 0 NE 300 350 400 450 500 wavelength nm Fig 4 New ultraviolet light absorber for Ever Rich paper 6 1 2 0 Ever Rich C 1 No 37 49 1992 2 2 1993 12 2 3
115. Fig 3 Ever Rich FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 395nm Ever Rich 360nm Ever Rich 360nm
116. Table 2 Influence of Spot Color Inks and an Additive on On press Development i 5 4 CTP Fig 7 ET Values G N Super Gold 05 DA Fed e LD NS Fig 7 Performance attainment level of LD NS in the short run color printing market FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 CTP 6
117. 4 0 f 1 EL y 0 y 1 4 WC 4 72 cM cHL gLC ocLB Lax f y o 1 x oM tx 1 y o HL ty 1 f o LB f o LC x f y zr c gt gr gt cr HX E
118. 4 photo 6 Velvia 100F Photo 6 Reproduction of a crimson rose Velvia 5 5 photo 7 Velvia 100F Photo 7 Reproduction of a blue sky and bluish still lives Velvia 73 WY YE 6 16 Velvia 100F 100 ASTIA 100F OBID 3 2 2 Velvia100 Velvial00 A HA
119. AMOR 2 4 REC XR uti PICK T Hz SURES NS COLI Bu
120. CCD 2 Fig 6 SDRAM Signal Processor DMA YC v C DA SDRAM YC JPEBG 600 lt OB RU Shutter Exposure CCD Read Out ww A See Fig 7A Section B See Fig 7B Section Memory Map of External SDRAM YC Proces
121. N Cn Velvial OOF Velvia 50 4 Al LI m N uo o o AHue Angle Fig 11 A Hue angle for RVP and RVP F 1 photo 3 SEXT FC Od S PU ASTIA 100F Photo 3 Comparison of light source suitability under fluorescent lamp ASTIA 15 2 photo 4 Velvia Velvia 100F Photo 4 Reproduction of purple that has reflectance in the near infrared ARA IM eEOR photo 5 Velvia 100F Photo 5 Reproduction of a plant green Velvia 4
122. 2 UY AL UE FV XL 2 Z FRFR Frontier 340E OWE 1 2 2 1 3 Scheme 3
123. 9 3 Scheme 2 TRIER CH A Whe H S2032 gt HSO dies EDTA Fe EDTA Fe I ArSO Ag S ArSO S Scheme 2 Reduction of sulfur formation with the sulfinic acid derivative 7 3 lL
124. Fig 11 35000lux 42 Bom rv me a Am i dn Fig 11 Change of the absorption spectra 3 5 3 COW SHG 1996 Frontier SHG Nd YVO4 A 1064nm PPMGLN 4 532nm Fr
125. m z 400 600 Fig 6 m z 544 Fig 6 3 3 Integral 2590 a AA Mc08257 P1TPC hons 80um 643264 cts MC0825 7 TCP CPE 10 90 ESI TEM TOF SIMS LY 3 4 ESI TEM ESI TEM S N
126. ESI TEM Elemental Specific Image Transmission Electron Microscopy TEM A a column post column Fig 1 IT SER ESI TEM Conventional TEM C Incident electron Sample Ultra thin section inelastic scattering elastic scattering E Eo E Eo AE TEM imaging plate Energy Filter energy selective aperture Intensity ri Fig 1 Schematic representation of the ESI TEM method 2 D 1nm 2 TEM EDX ear
127. 1 2002 2 Frontier340E 2 1 FR340E FR340E D gt D gt Simple amp Easy FR340E FR330 1 2m2 gt e TAR FR340E E Express Easy operation E picture 2 2 FR340E Table 1
128. 2 FePt FePt Sun Fe CO Pt acac 9 300 C Creat FePt 9 N SI ET FA PVP FING S77 ee Fe PtH 200 CTR FePt B k U FePtM M Sb Bi Pb 7 7 Tr WID Fe Pt AOT 2 NaBH4 FePt Ie MSI eVisH lt PoOMBSntsEY Chemical Abstracts Service Scifinder HE 1922 Gotoh 9 231978 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Z Ag 1 10Tbpsi
129. 70cc m 290cc m LP940H LP1310H tA SPRS Toke 64 FU fb LP940H I LP1310H I ORZ ZAT as CIP LP940HI LP1310H II 1 3 Fig 1
130. T a 54 OREO areal EI R OT RBI EINT 6 co 0 E FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 BOD Fig 10 G R 6 5 350 450 550 650 nm Fig 10 Concept of the multi color collection layer technology Velvia100F Fig 11 NC SS
131. 1 Lens Shutter Digital Signal Processor Video OUT e ial Roa DRAM VRAM ERA RISK CPU 32bit External SDRAM eee lend JPEG xD Picture Card pP Boom Fig 2 Block diagram for super dynamic range image processing system gt REFERER N COD A EWMOLIBIA FY DVL SURE ZF PDK 2 PD 4 CCD D 400 D FE Hi P Fig 3 Oo Pixel Structure of Conventional Form Honeycomb CCD Pixel Structure of Super Dynamic Range Honeycomb CCD PD Vertical CCD High Sensitivity PD Low Sensitivity PD Channel Stop Channel Stop Vertical CCD Fig 3 CCD device layout CCD 1 1 7 666 333 333 T 0 PD VCCD ETL PD 35 CCD PD
132. 5 a eee in ae en BY 58 3 2 SUCH TUIS BI SEE 7 PixImageLib
133. dry chemistry EH HES 2003 9 17 A PR T 351 8585 Hj E HER TH IK 3 11 46 Asaka Research Laboratories Fuji Photo Film Co Ltd Senzui Asaka Saitama 351 8585 Japan 78
134. Fig 12 photo 8 4 fig Velvia 400 450 500 550 600 650 nm 700 Fig 12 Spectral sensitivities of Velvia 100 Velvia 100F Photo 8 Reproduction of a sunset Velvia 100 3 2 3 Fig 13 ASTIA100F v BR
135. I L LD Fig 10 LD op Fig 10 Difference in characteristic SHG output between DC and RF operations The number of axial mode is single for DC operation but three for RF operation The output characteristic becomes smooth in RF operation 30 D LD lt 100mm gt SHG SHG SRE AR 0 1 50dB 3 APC IL SHG Fig 11 LL S i Ta 0 25 50 75 100 125
136. 44 Image Intelligence P AK EH 49 NTT Aare RAL HAEE 55 CTP LD NS ORR m MM n KEAL 60 LP940HII LP1310HII ii Jan 64 FePt FePtCu ie Se 70 oo BOA OE He eces 78 En O 84 1 4 2 5 1 UE eed HEEF FEB 94 dg BURE oeeo 97
137. ET Yanagihara N Sato H Kawabuchi T Takashima M Nomura K Yamakawa K VE B HT I 55 11 1229 1232 2002 2003 53 54 2003 82 88 2002 51 12 3199 2002 FujiFilm Res amp Dev No 48 5 8 2003 311 2002 Sie UE E E 2002 308 2002 205 208 2002 59 6 697 699 2003 FujiFilm Res amp Dev No 48 47 54 2003 50 1 146 2003 FujiFilm Res amp Dev No 48 22 27 2003 BIZ Y X F 350 mW reliable operation in fundamental transverse mode InGaAs A 1 05 wu m GaAsP strain compensated laser diodes CCD vs FinePix S2Pro SHIPP zh mE M JIS X9204 20
138. LH PD 3 4 DT 2 2R DT 2 2R D VA pH13 WChHA DT 2R DT 1R 4 LP940HI LP1310HII a 3 b c a b LCA Life Cycle Assessment 40
139. TT Bs TY HH A o mU I MS SC 2 3 4 3 HA 3 VA 2003 4 504s 2003 12 3 T 351 8585 3 11 46 2 Electronic Imaging Products Division NIT FASOREZ Fuji Photo Film Co Ltd Senzui Asaka Saitama 351 8585 Japan FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 gt
140. CTP Computer to Plate CTP BHA LY CTP CTP Photo 1 CTP Photo 1 LD NS 2003 10 10 H
141. Simple amp Easy CEIA EN ER 7 RDS 1 Frontier350 370 A Ed No 43 35 41 2000 2 URE Frontier390 No 47 24 30 2002 3 Frontier330 No 48 15 21 2003 4
142. SIN Fig 5 CCD PD VCCD 3 PD VCCD 2 3 CCD VCCD 3 AFE TG A Section n VHH GND Pulse into Electrode 1 3 B Section Low Sensitivity PD High Sensitivity Channel Stop Electrode 2 Electrode 3 Electrode 4 Electrode 1 VHH GND Pulse into Electrode 2 4 Fig 5 CCD pixel structure and drive pulses of the vertical driver 23 LSI Fig 2 LSI D 32 RISC CPU JPEG IO CPU LCD
143. IE SUPE EH Lo 5 Jv 7 CF Night amp Day Night amp Day Venusl600 7 ON OFF MT Photos Night amp Day Photo 5 Merit of Utsu rune desu Night amp Day 1 45 F6 2 Venus1600 C SEV FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 0 Table 1 IRRE F 7
144. Venus 4 Superia f Venus
145. 5 I DCMY Fig 7 Scene analysis and image expression algorithm in the FDi digital still camera print system PC sRGB sRGB Frontier PC 5 Hig 8 8 Image Intelligence FDi 3
146. PROVIA100F 400F 2 17 B Eu Photo 10 Velvia100F 100 ASTIA100F L Ek Photo 10 Multi structured sigma crystal grain 4 Velvial00F Velvial00 ASTIA100F
147. DSP 6 DSP 4 CPU 1 2GHz CPU 566MHz 100MHz 66MHz 512MB 384MB Easy amp Simple GUI Ji 324 400 R LED 15nm 1ch L 54 4R SH M 2 L 3 4R 3 M 1 L 8 4R 7 M 2 tel 4 4R 4 A4 1 AD200 AD100 Fig 1 FR330 FR330 Table 2 4 Dry to Dry Easy amp Simple 7 CP 49E
148. Fig 1 Venus800 KE i e EE RJ EZ 38 25 5 Eum UL z RE o1 oo 1 0 oF WO Ne Venus800 Current800 0 25 0 5 1 2 4 8 16 32 64 Distance to a photographic subject m Fig 1 Photographic space and frequency distribution of picture taking with typical Zoom compact cameras Venus1600 a pie mee ieee 1986 sc daa piri ii lt NT CN em ae eas 1 Fig 2 B Night amp Day
149. D PFHig 8 L Fig 9 4 AMER KZ VVN CCD NZ A ACAOKBAA FZ VAY VRE ATA High Sensitivity Demosaicing Information Composition Scene ratio H Analysis to Determine Composition ratio L Low Sensitivity Information Demosaicing Fig 8 Flow of the algorithm to build up a final image Signal OL 100 200 300 400 Relative reflectance 0 Fig 9 Opto electronic conversion functions for a combined image 4 4 CCD DSC D DSC Table 1 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004
150. No 45 54 58 2000 2 2001 290249 2001 10 19 3 THIN 11 282142 1999 10 15 4 MSDS Brillia Luxel AYZ TUX FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 69 UDC 621 318 1 546 72 546 92 681 327 66 FePt FePtCu Et Tee Development of FePt and FePtCu Magnetic Nanoparticles by Reverse Micelle Method Koukichi WAKI Genichi FURUSAWA Keizou OGAWA and Yasushi HATTORI Abstract Nanoparticulate FePt which is highly stable to heat is an excellent magnetic material for super high density magnetic recording media in the future FePt and FePtCu nanoparticles were synthesized by reverse micelle method H2O sodium bis 2 ethylhexyl sulfosuccinate AOT decane FePt and FePtCu nanoparticles obtained by using such a method had monodispersity an
151. maim x AS RAPP Image Intelligence UDC 621 395 721 5 621 397 422 681 3 06 NTT zn ell pi AHER Ek MA BA BA Fee Development of PHOTO MIRACLE Service as an NTT DoCoMo Official Site Content Kenya TAKAMIDO Kazuo WASHIO Hiroshi SUGANUMA Norihisa HANEDA and Masafumi INUIYA Abstract Authors have been developing software content services for mobile phone customers Unlike camera films digital images do not always take on the form of print rather they are left in media just as digital data without being used for further applications We must explore a new concept in order to expand the applications of digital images As an answer we have developed Photo Miracle service for camera mounted mobile phone users Due to many limitations of mobile phone service development we had to overcome many kinds of problems among which the biggest one was to reduce the designer s burden by developing a software library including a lot of utility functions In this paper we will describe what kind of service we have begun and how we developed it 1 E 4E BE up np a
152. 2003 9 30 H GR T 258 8538 798 Miyanodai Technology Development Center Fuji Photo Film Co Ltd Miyanodai Kaisei machi Ashigarakami gun Kanagawa 258 8538 Japan 26 SHG Second Harmonic Generation EAT SHG ERORA SHG ORE NAM SHG SHG LN
153. 30mW LD LAL SHG Vv 0 1nm SHG gt m U 395 Hp C 72 0 SHG 3 LD SHG LN SHG 3 1 LD SHG LN LiTaO LT SHG SHG Fig 1 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 ithe ALO LN LT
154. T 250 0193 210 TEL 0465 73 7170 FAX 0465 73 7927 El mj 210 EE An Wr i sek
155. 180 E SHG Fig 1 Schematic waveguide SHG device based on periodical domain inversion Z LN SHG SHG LOL TM SHG TE LD 5040s 62 206 57 90 Fig 2 LD X EE SHG 7 LD EIk SHG TE X Y LN NTH SHG LD SHG
156. PD 1 3 1 16 D 400 Fig 4 Output voltage mV 100 200 300 400 1 1 I High sensitivity PD Saturation level Low sensitivity PD 1 High sensitivity PD Low sensitivity PD lt ange y range Relative illuminance Fig 4 Opto electronic conversion function for each of the photodiodes CCD 30fpsVGA 3 2 2 AFE CCD Fig 2 AFE CDS Correlated Double Sampling GCA Gain Control Amplifier AD ET ADC TG Timing Generator ADC 14 S N CCD TG CCD AFE FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 D AFE 1 AFE CCD
157. Fe Cu Fe Cu Fe Cu Pt Fig 13 Table 2 Bonding States of FePt Nanoparticles XAFS XANES EXAFS nm X Fep Feo oiezxe Feo Feo oiesxe7 FePt 0 264X14 0270X34 0 251X8 4 0 24828 76 Table 3 Bonding States of FePtCu Nanoparticles XAFS XANES EXAFS eV nm FePtCu Fe Unl FePtCu Fe 7115 ai b c Fez0 Fig 12 X ray diffraction patterns of FePt nanoparticles a Before annealing b After annealing N2 H2 400 C 30min c Fe2O03 standard sample N 7 9 750 C 0 a 03816nm Vcell 0 05557nm o LI Vcell 005511nm Nz H2 550C 450
158. Fig 2 Pre edge 1 Post edge Pre edge2 Energy Loss AE eV Fig 2 Schematic representation of an electron energy loss spectrum Intensity a u 1 Post edge Ipost OAL 2 Three window 2 Ipre1 Ipre2 Pb A E A Is A r KIL x Icore ERA
159. si 2002 88 89 2002 N 2003 61 62 2003 AA Te 2003 63 64 2003 A Study on the Nucleation and the Growth Mechanisms 66 2 168 178 2003 and the Structure of the Tabular Grains Silver Clusters of Photographic Interest Formation of Nakatsugawa H J Imaging Sci Technol 47 1 78 83 Silver Clusters During Precipitation of Silver Bromide Tani T 2003 Emulsion Grains 82 34 2002 3 8 N CH LH O f ot D ES YI TN X FMA SH Ge TE o T Ts C28 OO BL Lj 56 7 781 784 2003 gt C pH 3i 330 5 3 7 n edil O puse n 66 2 179 185 2003 AT g E N we ED i me EAL 4 ES CROWD ol 2003 71 72 2003 CH NE N Ld
160. 1cc88 A4 Fig 1 Pictrocolor system image formation process EZ RUADT AKOMPI pH pH 2 C pH 3 SGH 36
161. H2O AOT 9 H20 AOT HbO AOT HLO AOT Fig 9a FePtCu H20 AOT HO HzO AOT f Fig 9b HzO AOT FePt HzO AOT _ 8 c MEER UM E 6 L a a oa M 2 2513x 1 9309 a R 0 96 a 0 1 2 3 4 HzO AOT Fig 9a Size of FePtCu nanoparticles as the function of H2O AOT mass ratio FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 ee Te 02156025104 R 0 944 0 10 20 30 40 wis ILE nm Fig 9b Size of FePtCu nanoparticles as the function of water droplet size
162. 4 E
163. SDM Ce Fig 14 Photo 9 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 TH 5 5 LogE 6 Fig 14 Increased saturation in skin tone by multi color collection layer technology ASTIA Photo 9 Skin tone reproductions with ASTIA and ASTIA100F ASTIA 100F 3 3 3 3 1 Velvia
164. Y PIED HE QAR Ok b 24 2 PPD HAox a X 7 b PPD 4 Y Tar PPD p phenylenediamine QDI quinonediimine HA hydroxylamine drivative HAox oxidized hydroxylamine derivative D Reproduction of the hydroxylamine derivative 2 Removal of oxygen 9 Removal of quinonediimine Scheme 1 Proposed mechanisms of tar reduction with a sulfinic acid derivative 7 2 pH BHUCBMBIOSHE
165. LD SHG 0 6nm A BPF BPF 20nm fE Fig 8 LD LQCK Fig 8 Wavelength tuning characteristic realized by the new external cavity locking system 6 SHG 30mW OLD SHG 400 Wcm 8mm OHI SHG LD ESRI 60 LD SHG SHG SHG 1mW Photo 1 LD HBS SHG VGF Fig 9 SHG Photo 1 Hermetically sea
166. Table 1 65 Table 1 Features and Technologies of the New System M GB AAC Poly ae ae axem 41 AAC 4 1 1 kot 2 Ur RRB e H
167. 5 1 6 a SHG SHG LD 6 b LD SHG Locking SHG Device Po ee ed SH Beam b Fig 6 Schematic diagram of wavelength locking of the LD due to external optical feedback BPF position a behind the SHG device b between the LD and the SHG device Wavelength Locking Mirror SH Beam LD SHG Device Fig 7 Schematic diagram of a new external wavelength locking system with BPF disposed between the rear beam side of the LD and a mirror LD 2 SHG LT 2 TRE Fig 7 UT FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 BPF
168. YAG YVO4 LD LD L SHG c LD 808nm 946nm 473nm 31K SHG S SHG LD SHG ZT
169. 9 4 1999 Pictrography Ever Rich 38 REF RIFT A ERY PZ PG SG Ever Rich DRZE UDC 773 92 067 77 023 46 HE hE IK WR Development of New Digital Printing System with Completely Mono Sheet and Full Color Characteristics Yuuichi FUKUSHIGE Hirotaka MATSUMOTO Kozo NAGATA Kyoko HANASAKI Masanobu TAKASHIMA Yoshimitsu ARAI and Shintaro WASHIZU Abstract A new full color digital printing system has been developed utilizing a photo and heat sensitive printing material The printing hardware consists of three laser light sources of different wavelength for image recording heating roller for color image development and white light source for decolorizing and fixing Therefore the system does not require any of ink toner or developer at all with no waste formation This fact makes the system very easy to operate and environmentally friendly Use of lasers as the Tight sources ensures high image quality and a high throughput speed The present paper describes the fundamental technologies namely 1 heat s
170. 2 TPP Fig 3 ESI TEM TPP ESI TEM Gray level of pixel intensity Fig 3 Phosphor distribution image of the microcapsule containing TPP obtained by core loss peak AE 150eV The line scan profile along the red arrow of phosphor atom is given below 3 2 PX
171. Silvi F2 8 66 3 247 251 2003 KLASSE Ve E mc FujiFilm Res amp Dev No 47 18 23 2002 APS nexiaQ1 Jb mj FujiFilm Res amp Dev No 48 9 14 2003 HR 2003 103 104 2003 138 FIJE Y X F HRI 7 71 0 D gt TRU USB S B i LAK od Hh IH 130nm KrF GKR A DDCP Luxel SPEED PROOF 9000 CTP Co Re SCREENING A HFIPS based Polymer Approach for 157 nm Single Layer Photoresist FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 ye A ia c J F Kanna S Mizutani K Yasunami S Kawabe Y Tan S Yagihara M
172. 1 R LED FR340 R LED FR330 R 15nm Eie 2 amp Fig 3 A RDP3 B100S LED FR330 AR RDP3 E100S DPA K LIEN TK AR FR340 R RDP3 E100S FR340 R 1 4 Fig 2 E1008 spectrum penetration percentage and LED light intensity FR330 R LED FR340 R LED 4 R RDP3 13 Fig 3 RDP3 spectrum penetration percentage and LED light intensity 3 2 FR340E 135 APS 0 F330
173. 1 SMB 3 i i we 304iS e a F
174. SHG 2 ttiedt SHG amp Laser Diode LD SHG ZT TN eS SHG l FORE Table 1 SHG SHG Table 1 Characteristics of a Waveguide and Diode pumped Intracavity SHG Lasers Fea at b Fifi Hn ZU PIV Ales LD 2 i 1 SHG 10mW mW W Jta SHG
175. 0 1 d ME 100 Hig 7 2 1 2 2 HL Hig 8 1 2 D 0 8 06 0 4 50 0 2 M 80 0 0 10 20 30 Time s Fig 7 Temperature dependence of the thermal bleaching step 41 y7 00 STRE 0 10 20 30 40 50 60 70 80 90 S Fig 8 Heat record of the heat developing step 3 4
176. 7 FRY v Roe 0 1 0 2mJ cm 3 3 Fig FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Pig 6 Ye HLA A MA 1 PE S ah JC TH 5 z4 3 z E m a2 A sx 4 amp 1 im kd uL A ran Pu an E TES Fig 5 Absorption spectra of the bleach reaction cyanine borate type M R CH CH CH N N n R R Fig 6 Bleach mechanism of the dye borate Compounds
177. b Image Intelisence 3 f 50
178. 1 A mH Fujifilm Research amp Development No 45 14 2000 2 Yuki Matsunami Kimio Ichikawa International Journal of Pharmaceutics 242 147 153 2002 3 Andre Herzog Cardoso Carlos Alberto Paula Leite Fernando Galembeck Langmuir 14 3187 3194 1998 4 R F Egerton Electron Energy Loss Spectroscopy in the Electron Microscope 2na ed New York and London Plenum Press 1996 5 AEREO 72 D XT ER tick 1999 6 Y Tanaka H Hasegawa T Hashimoto A Ribbe K Sugiyama A Hirao S Nakahama Polymer Journal 31 11 2 989 994 1999 7 1999 8 J C Vickerman D Briggs TOF SIMS London Surface Spectra 2001 9 38 2 127 130 2003 Printpix 48 ESI TEM VA FORT UNORE GEN FS 4 2 COMP TMA UDC 621 397 331 681 3 06 621 397 422 TImage Intelligence ET MA 3E High Quality Image Processing Technology Image Intelligence Fumito TAKEMOTO and Akira YODA Abstra
179. Table 1 Plate Making Process of LD NS re ste RI meam RICO M ao B rn Brillia LD NS T Wr 5 CTP FY 5Wr 5 To b 10 100 Fig 1 Target market of LD NS 1 000 10 000 3 LD NS iX 0 Me Fig 2
180. al Su M Du E LI Es Sox Eu m n z d gn E qo ES n a i Re Dus i Pd r Pd E a bo os a l d ae i i rt 11 zi Iz Lb s 06 Eb H2 350 1000 Oe Ho Jj A 400 4000 Oe Fig 11 Phase diagram of FePtCu nanoparticles dashed areas optimum composition PARES ECD 5DIRSJURPHAVC T w 5t X RE mEDAR ACIES ASPUIBIDT OEX idifEST XAFS XANES EXAFS Table 2 Table 3 Fe Cu Pt XD Fig 12 Fe Cu Fe Pt Snm 30 EXAFS Fe Cu Fe Cu Fe Cu O
181. 7170 VERT Table 1 Table 1 Kit Name with Hitachi 7170 in FUJI Standard Method in FUJI item kit GGT T GIP J HA test WAKO company WAKO Pure Chemicals Industries Ltd Cica liquid CK KANTO Chemical Co Inc LDH T HA test WAKO WAKO Pure Chemicals Industries Ltd ALP T HA test WAKO WAKO Pure Chemicals Industries Ltd ERM Lot 002 JSCC 60 GGT GOT GPT CPK LDH ALP OHE QAP E 2 ERM Lot 002 L 14 14 X Y Fig 4
182. Vens Night amp Day KATHE 6 Velvia 100F 100 ASTIA 100F n 8 WFR w S amp ES 11 Frontier 340E Readidosdshieoe ARRE om DRA E 19 SHG VL P OBB3S eee M ID 26 New G PROLASER FC ET OPRA enne 32 PZPG SG Ever Rich oo ATA YR AE 36 Sia Xam XP HE BL 239 ESI TEM H
183. 174C CH AOT Fig 3 N2 BBO YIM ICA Ow 3 rrira KmTn AET FePtCu CulhOw EI y RH 20 70C EHEM AOT AOT 0 7mol l 80 170mmol l NaBH4 I AOT gt D M ee T Hie OOOO HN o VOLO ee PLQ OO 34 Pt2 H20 eo Pu Fe A a Te EIE E UP d n 5nm FePt mm AOT Pt2 i Fig 3 Preparation of FePt nanoparticles by a reverse micelle reaction 50nm 71 3 2 O L
184. CTP LD NS TEV CTP 1 wre 397 401 2001 2 36 3 148 151 1999 Brillia PR OF 63 UDC 655 226 26 655 226 251 4 LP940Hl LP1310HI Development of Digital Thermal Plate Processors LP940HII and LP1310HII Chikashi OHISHI Abstracts Fuji Photo Film Co Ltd introduced the new thermal positive platemaking system in the market this spring The feature of the system is 40 decrease of environment load in terms of LCA Life Cycle Assessment compared with current system making the system more eco friendly Spe
185. FePt FePt FePtCu FePt FePtCu 3 FePt 3 1 l AOT
186. 50nm Fig 40 FePt nanoparticles prepared with a special Omni mixer C V 22 5 Sun 9 72 FePtCu 37 3 mol 373 mol Fig Sa Sc CV 9 9 50nm Fig 5a FePtCu nanoparticles prepared without dispersing agents CV 13 9 530nm Fig 5b FePtCu nanoparticles prepared with 37 3 mol oleylamine gl lp Bm C V 59 3 Fig 5c FePtCu nanoparticles prepared with 373 mol oleylamine Bi 3 ENN LES FePt 354 U FePtCu HEF 2 NL OZE Fig 5a Sc C V Fig 6
187. JAJiLUEZFkUZ274 HS Br PZ PG SG Ever Rich OVE 3 EFKAVII4 Ochk COXBRE Ever Rich H EYER DF RE c Fig 2 19934 2000 N Fig 2 Structure of the new stabilizer SE 5 GB PZ PG D Ever Rich Ever Rich 2001
188. Table 1 Main Specification of Frontier 340E CCD HA LDS HG ACCS PC PC F D I 135 4APSRALVUT 127mm L 9 0 0 DI 1 27mm L 7 50 D I 7 5 ORS 1 40 BE Dry to Dry CP 49E FUJICOLOR EVER BEAUTY PAPER for LASER 8x12 WKY A4 110 135F amp H APS 120 220 RV 1 2m 20 FR340E ER330 Table 2 Table 2 Technical Advantages of Frontier 340E L 900 670 L 46504 480 4R 800 570 AR 570 410 Dry to Dry 1 40 100 Dry to Dry 3 40 220
189. lL TEM EDX 2 TYF IEA ESI TEM w e F O II N Cn T N ce al Cn e II O e e Total Counts 0 19 amu bin Cn Sud area eee eo hunds bul ad cali tee TWIN T TIS ree REN 400 450 BuzN C CHz N BuN cC cH a Paz 516 500 550 Fig 6 Positive ion TOF SIMS spectra of the microcapsule containing diazonium A FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 47 LEE
190. 1868 1999 292 1999 BERM 6 Fig 1 1 ERM 6 80 EFDC 6 o5 419309 fa O other 0 20 40 60 80 100 LDH B JSCC O other 0 20 40 60 80 100 B JSCC ALP O other 0 20 40 60 80 100 Fig 1 Annual change of the ratio of the JSCC method in the survey of Japan Medical Association FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 79 2 2 FDC FDC Measurement system Fisg 2 EFDC ERIC JSCC JSCC consensus method JSCC JSCC tran
191. 3 2003 173007 2003 4 2001 312032 2001 5 2684265 1997 6 fale ABR IED DDCP Luxel SPEEDPROOF 9000 FUJIFILM RESEARCH amp DEVELOPMENT No 48 55 2003 7 2003 Er 87 2003 8 Evans R M et al Principles of Color Photography J Wiley and Sons Inc New York 1953 9 52 1 41 1989 10 IS amp T Annual Conference 1997 11 100F 400F FUJIFILM RESEARCH amp DEVELOPMENT No 46 1 2001 FUJICHROME ASTIA PROVIA Luxel SP
192. LP940H LP1310H DT 1 DT 1R LH PIII LH PD LH PF 2003 LCA Life Cycle Assessment 40 LP940H II LP1310H II 2003 9 8 T 421 0396 4000 Printing Material Research Laboratory Fuji Photo Film Co Ltd Haibara gun Shizuoka 421 0396 Japan HP S DT 2 DT 2R Photo 1 Digital thermal plate processor LP940HII E 2 BE LP940H 1 1000m 2 3 8000m
193. 3 4 X Fig 4 COR
194. 9 7 O 8 o e Cu Fig 13 Estimated phase transition mechanism 4 Webel Ji 3 E VIELE E Z FePt 35 X U FePtCu BHF WS OPE EePt FePtCu 3000 Oe FePt 425 CT 3047 FePtCu 7 7 MFC 375 C 30 Fig 14 Table 4 IZ RaT inn Table 4 Zo
195. n 20 0 0 50 100 150 200 250 Fig 7a FePt nanoparticles composition change in the first and second reduction processes measured with ICP 1 Fe at 96 100 Pt at 96 80 Cu at s w 60 40 n 20 0 0 2 4 6 8 10 2 40C Fe at 9g e Pt at gt 80 Cu at o 1 60 IH 40 lt n 20 0 0 30 60 90 120 150 Fig 7b FePtCu nanoparticles composition change in the first and second reduction processes measured with ICP a b Pt Cu 73 c Pt Cu Fe 3 Fig 8a 8h a b c 10
196. 1 2 1 2 1 E 4 i 9 einn SC filter 360nm SC filter b OR s z 0 8 Desde iP uh N 360nni SC filter 2 Co A oc No filte 0 4 Density Reduction 96 ml D Density Reduction D 0 2 be New Dye Current Dye 0 0 0 4 8 12 16 0 4 a 12 16 Xenon lamp exposure time day Xenon lamp exposure time day Fig 3 Light stability of the dyes BE Ci65 30 30 RH 20 C9096 RHC 85Klux CHA 3 8 1 1 5 SC filter 5
197. DT 1997 Tii de 3 Co Re Screen a 38 6 30 34 2001 b Co Re SCREENING 2001 107 110 113 2001 c Co Re SCREEN ING No 48 65 70 2003 4 EDR H BIEU FCR EDR No 2 34 48 1994 5 DRC No 1 21 46 1993 6 CAD CR CAD No 9 34 47 2000 53 7 H Nakamura Digital Image Processing for the Frontier350 Digital Minilab IS amp T The PICS Conference 1999 8 FDi No 46 29 36 2001 o4 Image Intelligence FD
198. FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Ichikawa K Dobashi T Langmuir 19 7 3071 3073 2003 14 3 287 298 2002 X EE 55 50 2002 55 366 2002 4 80 85 2002 C 68 673 2665 2672 2002 67 1 35 41 2003 67 1 49 54 2003 11 122 125 2003 8 1 265 268 2003 78 5 39 5 40 2003 25 30 61 64 2002 fa 2002 84 85 2002 145 LAT SOG Kee ae A Graded Index Polymer Optical Fiber With High Temperature and High Humidity Stability 0 DIAG US Vad DVO
199. Table 1 Specification of a DSC with Super Dynamic Range Image Processing System O OER O 1 1 7 CCD SR 620 S 310 R 310 max 2832 X 2128 603 xD 6MB 512MB wo BBC 3 fi mm 23 1mm F2 8 F7 1 ISO AUTO 200 400 800 1600 AE AE AP 3 1 2000 f MEGA O 1 88 CG TFT 13 4 640 X480 30fps NTSC PAL 1 T Yamada et al A Progressive Scan CCD Image Sensor for DCS Applications IEEE Journal of SOLID STATE CIRCUIT 135 12 DEC 2000 2 K Ikeda et al 1 1 7 format 3 3M Pixel Honeycom CCD Sensor ITE Tech Rep 25 28 3 30fpsVGA 330 CCD 26 26 65 70 2002 CCD xD
200. c FR330 Hig 7 FR340E Fig 8 ROCCCURs GOR ee a HI DUXI PFR340E Fig 9 3 Fig 7 Serv
201. 4 2 AD200 100 5 5 1 CP 48S P1 38 57 P2 PS 38 C CFP 49E P1 45 0C P2 PS 40C FR340E 3
202. 82 86 2003 H 3 E 41 4 368 373 2002 19 21 27 2003 i 11 1 129 132 2003 2 nel 66 2 148 150 2003 2008 SH f 81 82 2003 Bite o me ESE ATH A 2003 i 87 88 2003 Her TH EEO MM lt 3 p 2008 89 90 2003 R 2003 91 92 2003 lt AIIM gt T 1 H TI IM 42 6 30 32 2003 F 35 36 1 4 2002 410nm mk Xx d 21 22 2002 R 2002
203. Akiba M Inagaki Y Kawamata J Second harmonic generation of a novel transparent material N N diphenyl 8 2 4 pyridinyl ethenyl dibenzofuran 2 ylamine Opt Mater 21 1 3 71 74 2003 Washizu S Miyagi T Structural Color with Polypeptide LB Film Trans Mater Res Soc Jpn 27 3 555 558 2002 144 FIJE Y X F Ultrasonic Study of Swollen Microcapsule Membranes 17 17 AIPHOS KOSP TOSP
204. DA 180 Fig 2 a ZYX SHE PL 1zm Fig 3 H SHG Z LN Z Y or X Y or X EH d lum yy TX or Y YOCO LN a X Y LN Y or X 6 3 6 b LN Fig 3 a Schematic perspective and b sideviews of the domain structure formed by electric field application to the periodical electrodes a Tu i om E r2 E NODE T Mie aoe Fig 4 Cross section of the periodical domain inver
205. Weller D Folks L Moser A Science 287 5460 1989 1992 2000 2 Murdock E The 10th Anniversary DISKCON JAPAN 2002 International Disk Forum 249 272 2002 3 Graf L Kussmann A Phisik Z 36 544 551 1935 4 Goernert P Pfeiffer H Sinn E Mueller R IEEE Trans Magn 30 714 716 1994 5 Weller D Moser A Folks L Best M E et al IEEE Trans Magn 36 10 15 2000 6 1 1 15 18 2003 7 23 26aC 6 155 2001 8 R Gotoh M Arisawa Kyoto Sangyo Daigaku Ronshu 7 4 264 276 1978 9 3E 73 8 385 390 2000 10 Wu Ming Li Chen Dong Hwang Huang Ting Chia Langmuir 17 3877 3883 2001 11 2001 3 A 175 181 2001 7 UDC 616 071 006 86 AGES TM Standardization of FUJI DRI CHEM system Kikuo HIRAI Hajime MAKIUCHI and Kaoru TERASHIMA Abstract With the advance of network construction in medical institutions the sharing and standarization of clinical data are urgent issues In the field of enzyme activity measurement reference ma
206. 0 6e 0 998 n 66 500 1000 1500 2000 Standard Method in FUJI FDC system Pa y 0 987x 4 0 r 0 982 n 73 200 400 600 800 1000 Standard Method in FUJI 4000 3000 FDC system N o o o 1000 0 y 0 998x 10 0 r 0 998 n 75 1000 2000 3000 4000 Standard Method in FUJI Fig 5 Correlation between the standard method in FUJI and FDC system 3 FDC JSCC GGT GOT GPT CPK LDH ALP 97 8 33 645 FDC AF LEE 75 X FDC Y Fig 6 82 FDC Average of FDC system 400 300 100 0 0 100
207. 1 6 Fuji Film Microdevices Co Ltd Matsusakadaira Taiwa cho Kurokawa gun Miyagi 981 3493 Japan 300 AFE CCD 2L Frontier 350 Digital Minilab LSI 4 3 300DPI UD LSI D 4 CCD CCD D CIES 29 YT ZY ES Photo 2 Signal processing LSIS 2 1 CCD D CCD Photo 1 DSC
208. 3 4 F 400 FePt FePt N2 N2 700 800 C Nz Sun 500 600 CT EL 400 450
209. FORT UNORE MEN FS 4 2 COMP TMA C ESI TEM Fig ZN OTS Dd HEE W Fig 5 Elemental distribution images of the microcapsule containing diazonium C obtained by the three window method a P mapping image b Cl mapping image c S mapping image ESI TEM TOF SIMS ESI TEM TOE SIMS 2 A TOFE SIMS
210. Kokubo T 63 3 894 2002 50 0 36 2003 39 6 368 371 2002 86 6 11 17 2003 FujiFilm Res amp Dev No 47 34 39 2002 FujiFilm Res amp Dev No 47 40 43 2002 FujiFilm Res amp Dev No 48 55 60 2003 FujiFilm Res amp Dev No 48 61 64 2003 FujiFilm Res amp Dev No 48 65 70 2003 J Photopolym Sci Technol 16 4 595 600 2003 139 GSC New cyan color forming process with photosensitive diazonium salts FCR FCR PICO System BaFBr Eu ih IC BIT A PSL 140 Bs BL
211. and outstanding image stability 2 MCCL Multi Color Correction Layer technology which are developed for high color fidelity and improved reproduction of skin tones and colors 3 MSSC Multi Structured Sigma Crystal technology which results in fine grain with high speed 1 Fal Je r o Be ue cu E Ae a pce TISO100 O B ipa i 2003 6 Velvial00F 100 ASTIA100F Photo 1 lx 2003 12 25 H Gk T 250 0193 210 Ashigara Research Laboratories Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan Photo 1 New FUJICHROMEs 2
212. lop mA Fig 11 Current power characteristic L of the blue waveguide SHG laser 7 LD SHG SHG 1 LD SHG LD SEL SHG HE SHG FZ Frontier3307340 SHG
213. 03 CCD I 1 12 R cop A 4 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Akinaga F Kuniyasu T Matsumoto K Fukunaga T Hayakawa T E 1T X w St GE Es k VK NN CT Electron Lett 39 1 55 57 2003 425 MI2002 69 79 1 6 2002 102 jog Ar 2002 36 41 52 No 3 23 25 2002 41 3 243 249 2002 66 1 88 92 2003 66 3 263 268 2003 17 18 2003 KR iH 2003 19 22 2003 2003 32 3 274 278 2003 27 25 IPU2003 20 26 CE2003 16 22 17 20 200
214. 096 E lt o 8076 20 Fe XS 60 0 m x 1 5 10 15 20 Za o MER 20 FE TEM EDS g e 2 3 oH 20 Fig 8c FePt composition with the homogeneity enhancing 0 01 200252 b Eis measures ICP 20 FE TEM EDS 2 3 Fig 8g FePtCu composition with the homogeneity enhancing measures 74 ji 3 ENN ES FePt HEV FePtCu MEF J WS OVE 10nm Fig 8h FePtCu nanoparticles with the homogeneity enhancing measures TEM image 3 3 9 x FEI 38 VC
215. 100F ASTIA100F CX 4 Sats Gases aaa on oN i CN ein CD Oe Fig 9 GL RL BL RVP 400 500 600 nm 700 Fig 9 Color matching function and the spectrum sensitivities of a color reversal film GE Fig 9 oe Fig 6 RE i pie
216. 2 400 500 600 nm 700 Fig 6 Relative spectral absorptions of the new couplers Fig 7 Enhancement of color saturation by the new couplers 25 70 RH 100 1500lux 1 i 00 E tXxA2722 ge 00 m m3h72 R Bia72 s 90 ji 90 gi EN amp 80 80 70 70 60 60 50 50 Fig 8 Arrhenius prediction of dye image stability Fresh 25 C 7096 100 years Conventional coupler New coupler Photo2 Faded images in dark storage obtained by computer simulation on the basis of Arrhenius prediction 14 Velvia 100 100 ASTIA 100F OFF 3 2 3 2 1 Velvia
217. 200 300 400 Average for JSCC method 400 z D 300 C 200 9 O y 0 95x 2 5 V 100 lt 0 0 100 200 300 400 Average for JSCC method 200 5 150 C 100 o Oo y 0 97x 1 7 2 50 50 100 150 200 Average forJSCC method Average of FDC system 0 150 300 450 600 Average for JSCC method BER IA TAY AF AOS 2 PREIC 400 p 300 A 200 E o y 1 00x 6 5 e 100 lt 0 100 200 300 400 Average for JSCC method Average of FDC system 0 200 400 600 800 1000 Average for JSCC method Fig 6 Correlation between the average for the JSCC transferable method and the average of FDC system 4 EFDC 6 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 LEE FEDC REPER
218. 2002 27 2 68 72 2003 27 4 241 244 2003 FujiFilm Res amp Dev No 48 71 75 2003 FujiFilm Res amp Dev No 48 76 81 2003 J Appl Phys 93 10 Pt 2 7008 7010 2003 28 56 61 2002 FUMFEZE Y X F CRP gt DNA SPM
219. 2002 12 H 2 5 2003 4E 11 JOIS JICST 1507 66 1 2 11 2003 2002 66 3 215 241 2003 5 2003 5 6 2003 20 76 85 2003 2002 TH No 606 46 52 2003 Chemical Roles of Gelatin in Photographic Emulsions 5 65 5 315 318 2002 Silver Cluster Formation and Stabilization 65 6 390 401 2002 Es 65 7 531 535 2002 2 i
220. 3 2003 2 21 2003 141 rai FinePixF401 Exif Version 2 2 ASP KeitaiPicture Gbit in 2 NANOCUBIC Influence of master medium structure on magnetic contact duplication performance 2 142 w OH X D E H Xt et ONE a E M Nishikawa M Nagao M Sugita R Bo Um n HH 19 3 14 18 2003 FujiFilm Res amp Dev No 48 28 30 2003 FujiFilm Res amp Dev No 48 31 38 2003 53 12 847 851 2002 26 11 1090 1096
221. 4 HARE Velvia Co ese Be fae 3 3 VERA ON BKE 2 3 SESREE E 3 1 EY HMB Velvia100F 100 ASTIA100F 3 1 1 Velvial00F 100 ASTIA100F
222. DO and Yasuo IWABUCHI 110 Blue violet Laser Write once Optical Disc with Dye based Recording Layer eeesosssossesoosoossoososcossooveeoosoosseovoscesseoveeecoscoseeoosecosceoveecoseooseooseccoccooees Hiroshi KUBO Yoshihisa USAMI and Hisashi MIKOSHIBA 115 Challenge for Improving Image Quality of a Digital Still Camera eesososososessssoosssosevoscooveceseoooccoseevoscoccccecooocoo Kazuhiko TAKEMURA Kazuya ODA Toru NISHIMURA Hiroshi TAMAYAMA Yutaka TAKEUCHI and Tetsuo YAMADA 121 Plastic Recycle in the Photo graphic System R00 Fumiyuki SUZUKI 129 Published Papers List PM m 135 Co researcher outside Fuji Photo Film Co Ltd UDC 621 383 7 621 397 422 4 CCD gt i e AN X GE A t Super Dynamic Range Image Processing System Using a New Structure CCD Naoki KUBO Hiroshi TAMAYAMA Kazuhiko TAKEMURA Kaoru ADACHI Toru NISHIMURA Kazuki IWABE and Tetsuo YAMADA Abstract Recently the digital still camera DSC has achieved a remarkable progress especially in terms of pixel number This owes to the progress of semi conductor process tec
223. E Fig 2 Table 1 FePt FePt Table 1 Magnetic Properties of Various Materials Ku Ms Dp Eso SE ERES SRI As EC XE GE nm BaFes amp Os 03 941 Co 04 100 8 00 x107erg cm3 emu cm3 Co 6 10 Ref IEEE Trans Magn Vol 30 714 716 1994 9 IEEE Trans Magn Vol 36 10 15 2000 10 20nm 20 100Gbpsi DHE FePt 100Gbpsi 1 10Tbpsi
224. EEDPROOF GR 18 Velvia 100F 100 ASTIA 100F OFF UDC 771 318 15 771 531 2 Frontier 340E p XE SHOE Sp7k El wr Development of Digital Minilab System Frontier 340E Fumio MOGI Katsuhiko TANAKA Teruo TAKANASHI Takashi YAMAMOTO Tatsuya KONAGAYA Kazuaki YOSHIDA Makoto SUZUKI and Yasufumi NAKAI Abstract The Frontier series of digital minilabs have won a worldwide acclaim for its incomparable print quality achieved by FujiFilm s exclusive laser technology In 2001 we made small sized fully digital minilab Frontier 330 for the considerable numbers of smaller stores Making use of Frontier 330 s platform Frontier 340E has evolved to have an enhanced processing capacity from 650 prints hr to 900 prints hr for 3R size with time saving efficiency from 3min 40sec to Imin 40sec of the dry to dry initial print finishing time and also to a simple amp easy operation system The present evolution has been realized by combining improvements in both hardware and chemical technology and by simple graphic user interface GUI For the above achievement a new processing system including a submerged wiper blade component system and a exclusively de
225. S AR fte Development of Process less Thermal CTP Plate LD NS Norio AOSHIMA Toshifumi INNO Koji AOSHIMA and Nobuyuki KITA Abstract The quality and running cost of CTP plates have improved in recent years LD NS is a new type of CTP plate that requires no processor or processing chemicals In other words it is process less plate LD NS which has been developed to achieve high image quality and high productivity for short run color printing has the following features 1 Image formation based on controlled ablation enables the same press startup as that with the conventional PS plate 2 The newly developed hydrophilic layer exhibits a high adaptability to various inks and fountain solutions and achieves low dot gain 3 Plate making completes only by feeding on the press a fountain solution and ink onto the laser exposed surface without using any special chemical LD NS is highly evaluated by customers due to its ease of printing and high productivity We expect LD NS to open up a new possibility of CTP plates 1 2 ODORE LT CTP mil
226. Venus800 RM b QE TA NI A os di CURRENT 800 VENUS 800 Photo 3 Merit of VENUS 800 2 Venus800 ISO400 ele E Fig 3 0 03 0 025 0 02 0 015 0 01 0 005 Fig 3 Comparison of image structure Venus1600 Photo 4 CT Night amp Day
227. _ATOMM TCE Decomposition by the Non 1hermal Plasma Process Concerning Ozone Effect 146 FujiFilm Res amp Dev No 47 31 33 2002 J Lightwave Technol 20 10 1818 1825 2002 42 7 41 45 2003 14 11 716 720 2002 7 12 14 24 2002 FujiFilm Res amp Dev No 47 12 17 2002 Conf Rec IEEE Ind Appl Conf 37 No Vol 3 1822 1828 2002 53 7 343 348 2003 BIZ Y X F Imaging and Information 70 2004 49 49 15 8 In Se lies
228. an elemental specific imaging ESI technique in transmission electron microscopy TEM has been successfully employed to obtain the information on the elemental distribution of the microcapsule wall membranes The result is that the diazonium compound in the wall membrane was found to be more concentrated in the vicinity of the outermost surface of the wall membrane of the microcapsules 1 Printpix 19944 Photo 1 2002 PX CX 400 Printpix TY 3 Tg Poly urea urethane
229. binder in the ink receptive layer and the plate sensitivity 5 5 1 Fig 4 LD NS CTP hall he T 75960 62 vx 0 20 40 60 80 100 Fig 4 Dot gain curve of LD NS exposed with Trendsetter 3244VX 0 60 0 58 0 56 im 0 54 lt 0 52 0 50 0 48 e LD NS 0 46 A YU 0 44 1 0 1 3 1 6 1 9 2 Values Gz amp N IF102 7 Fig 5 Contrast value of LD NS 2 2 220 N7 E 75 LD NS CTP
230. cifically we developed a new automatic processors which adopted new two technologies of a developer replenishment method and a hollow floating lid for developer Mainly owing to these technologies the life of chemicals tripled with a half amount of chemical waste A new developer replenishment method maintains the developer activity constant for a long period and the new hollow floating lid controls the carbon dioxide fatigue of developer In addition we adopted plastic molded parts for the main body side racks and many other parts first for this kind of machine to decrease production cost and make it easy for operator to clean the processor 1 IZ CTP Computer To Plate W 1998 Brillia LH PI
231. cts Image processing is becoming more and more important with the rapid prevalence of digital images In this paper we introduce a software technology Image Intelligence which integrates the picture technology and the know how that Fuji Photo Film has cultivated for many years It is based on the concept of attaining image quality desired by users through optimized image processing The function and the effect are described as an example of the automatic image correction technology for consumer photography 1 Image lt Intelligence Fig 1 Logo mark of Image Intelligence 0 2
232. d homogeneous composition both coefficients of variation lt 10 were obtained Also the average diameter of these particles was freely controlled between 3 to 9 nm Further annealing of the FePtCu nanoparticles in an Ar H2 5 gas lowered the temperature for modification from fcc to fct to the range of 350 375 C The nanoparticulate FePt and FePtCu media coated on glass substrates had a surface roughness Ra of less than 1 nm showing a magnetic recording capability 1 100 100Gbpsi SunlZZ 23255 O S zuo FePt 2000 Fig 1 ME
233. electronic imaging engineering magnetic recording engineering and other imaging technologies including recent progress reports pertaining to ancillary subjects Also published are briefs related to studies in photography information on significant tools used in photography and important development results of interest to photography and to associated fields Original papers submitted to this journal are published in the Japanese language with an opening English language abstract and papers which have already been printed in other scientific journals are reproduced from said journals in unmodified form After the main texts listed are printed papers which have been found in the JOIS JICST file until November 2003 Editorial policy intends that content be accurately provided to the reader Indulgence is begged for character usage and entry methodologies in materials not directly related to the subject at hand which may result in some lack of unity In expression Fuji Photo Film Co Ltd 2004 Published by Research amp Development Management Headquarters Materials Research Division Fuji Photo Film Co Ltd Minamiashigara Kanagawa 250 0193 Japan 49 4 CCD ee JEW EE F To Bab ese T
234. ensitive microcapsules 2 dye sensitized photo polymers 3 decoloration of the sensitizing dyes by visible light irradiation 4 the digital light sources including the Fiji Film s proprietary solid state SHG laser and 5 the simultaneous multi layer coating adopted for printing material production and further how to put together these technologies to complete the new system 1 3
235. eo IKEDA Hisashi MIKOSHIBA Toshio KAWAGISHI Shigeru KUWASHIMA Tetsuro KOJIMA and Shinsuke BANDO Abstracts In the early summer of 2003 Fuji Photo Film released new color reversal films FUJICHROME Velvial00 F Velvia 100 and ASTIA 100F Both new Velvias were designed to provide greater dynamic ranges ultra high color saturation and relatively a high contrast Furthermore both films have an ISO 100 speed raised from ISO 50 to ISO 100 and an outstanding image permanence The difference between the two Velvias lies in color reproduction Velvia 100F has enhanced color fidelity which makes it suitable for product photo and still life photo uses in addition to nature photo use In contrast Velvia 100 has incredibly vivid color reproduction which makes it especially appropriate for nature and landscape photo uses similarly to its predecessor Velvia ISO 50 On the other hand ASTIA 100F has been developed to reproduce delicate skin tones more elegantly than its predecessor ASTIA It has relatively soft gradation and moderate color saturation Further ASTIA 100F reprodues skin colors very smoothly from highlight s to shadows which results in an improved suitability of ASTIA 100F for portrait fashion and commercial photography These improvements are based on the following state of the art technologies 1 PSHC Pure Stable amp High Performance Dye Forming Coupler technology which enables ultra high color saturation
236. er V Fig 4 A RP 13 Fig 4 New magenta coupler X Fig 5 25 AUF eS Oe T DDCP SP 9000 HOH SP_NP VEY
237. hnology and DSC market request A Super Dynamic Range Image Processing System has been developed using a new structure CCD in which a pair of different photodiodes are arranged under a micro lens that is located on the top surface This make it possible to capture a high contrast scene which dynamic range is about 400 and we have achieved robustness in case of capturing the difficult scene for DSC such as backlight scene short range speed light photography etc In this paper we explain the new CCD and LSIs which realize the super dynamic image processing system and its algorithm 1 DSCEM CCD DSC 300 500 CCD 1000 CCD Fig D perdi
238. hutter mechanism a new changeover mechanism and the most brightest lens among One Time Use Cameras As a result these new films and camera provide consumers with the benefit of consistently capturing excellent quality pictures throughout an incredibly wide range of photographic space picture taking condition Photo 1 Venus 1600 Night amp Day Night Day FLLECOLUM Sa Te High Day Penner dide EK Venus800 1600 33 EU Ev 64 Night amp Day 2
239. i G COLOR FILM PROLASER FC FT Jun MATSUMOTO and Yuji KUME Abstract In June 2003 Fuji Photo Film Co Ltd released a new color display material New FUJI G COLOR FILM PROLASER FC FT This display material provides high image quality and high latent image stability with laser exposure These prominent features are achieved by applying and refining the photosensitive silver halide emulsion technologies and dye forming coupler technologies developed for the latest type of Fujicolor paper This paper reports prominent features of this color display material and related technologies 1 RR 2003 6 New G PROLASER FC FT Photo 1 1996 Durst ff Lambda130 CSI Light Jet5000
240. ice selection on Frontier 330 Printing screen Fig 8 Service selection on Frontier 340E Sub main screen FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 LL ILE Fig 9 Screen of the pre operational checks on Frontier 340E 6 2 Simple Simple 3 a b c ae R Fig 10 Fig 10 1 O57 opel be oii ia 3 FR340E 1
241. led LD SHG device and a glass block irradiated by the blue laser light 29 OHAR Dh Fig 9 Schematic diagram of the blue waveguide SHG laser module consisting of an RF operated LD a long external cavity and a waveguide SHG device with a 5 angle cut output edge SHG IL SHG APC 3 OD LD Fabri Perot Mode LD F P 2 LD Fabri Perot Mode 3 F SHG LD OLD LD SHG
242. me compactness and a low cost 1 1996 Frontier CCD 3 BHA Lt HE Frontier RL PL 8 Frontier330 370 390 F
243. nm adus FePt FePtCu Fe a b o FE TEM EDS Fig 8d FePt nanoparticles with the homogeneity enhancing measures TEM image FE TEM EDS nil 3 EPt 100 Fe N E d a 4096 lil Pt 1 5 0 5 E Fe ICP 16 48 20 FE TEM EDS 2 3 0 l E l Fig 8a FePt composition without the homogeneity enhancin9 ICP measures FE TEM EDS 2 3 Fig 8e FePtCu composition without the homogeneity enhancing measures 10nm Fig 8b FePt nanoparticles without the homogeneity enhancing measures TEM image FE TEM EDS Fig 8f FePtCu nanoparticles without the homogeneity enhancing measures TEM image 100 FE TEM EDS 80 Pt 60 is 100 m 4
244. ontier 9 Pictrography THON EF Fig 12 REL 9 3 i nuum I uai m L J ee 480 Fig 12 Schematic diagram of the film conveyance path in the printing system 15mmiU 105 10s 10s amp 20s A4 Ss A6
245. pn FUJIFILM I amp I Imaging amp Information ISSN 0915 1478 CODEN FFRDEK 49 1 146 2004 FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 Hl fr o i E GALS he E irai 2003 11 JOIS O ICST I PURPOSE OF PUBLICATION This publication incorporates the results of research and development carried on in the laboratories and manufacturing plants of the Fuji Photo Film Co Ltd It also includes papers and reviews related to photographic chemistry photographic engineering
246. rjee et al J Am Chem Soc 110 2326 1988 4 J S Arney et al J Imaging Sci 31 27 1987 5 J S Arney et al J Imaging Sci 33 184 1989 6 E NE BB UE Z U S Patent 6022664 2000 2 8 7 R E P Patent 1305645 2001 6 29 8 9 188686 9 RRA 2001 222105 10 M C Etter et al Isr J Chem 25 264 1985 Pictrography 43 UDC 678 66 026 543 428 ESI TEM EH MEE RAII M e Elemental Mapping in Poly urea urethane Microcapsules by ESI TEM The Control of Physical Properties in Nanometer scale Takeshi MIYATO Yuki MATSUNAMI Kimio ICHIKAWA and Hirokazu HASEGAWA Abstract Poly urea urethane microcapsules containing diazonium compounds have been developed for full color recording materials PX paper and the physico chemical property of the wall membrane is one of the major factors affecting the performances of the system In this study
247. s for Eight Scenes BE A Hd le AMAR 5 6 ALLE d X Ww E as L aes AD E zu doesn t specify a condition Image Intelligence EP 2 WE oA A B a JY LC mage Intelligence Fig 8 Comparison of prints by Image Intelligence and these with other printers FUJIFILM RESEARCH amp DEVELOPMENT No 49 2004 6 Imagse Inte ligence
248. sferable method FDC JSCC JSCC 2 ERM JSCC JSCC Fig 3 A FDC ERM 2 JSCC FDC ERM JSCC ERM FDC iX JSCC EDC 2 JSCC consensus method JSCC transferable method EEL FDC system Fig 2 Measurement system of FDC system JSCC consensus method JSCC transferable method Fig 3 Measurement system of a wet chemistry system 2 3
249. sing Data Storage Area sng HIE Low Sensitivity Pixel Data Lo Sensitivity PD NENEN RENEE EEES A OEN EE ON EAN EENIA LEREN EEEN ENEN EEEE AAEE EEEN AAEN 1 Front Processing of High Sensitivity Pixel Mix YC Processing Front Processing of Low Sensitivity Pixel Fig 6 Time table of CCD read and digital signal processing and operation of super dynamic signal processing Timing CCD Data Digital Signal Processing White Balance Calculation Fig 6H Mix CCD VRAM DRAM DMA YC VRAM VGA VGA YC LCD ER JPEG
250. sion structure ona Y cut 0 0 and 3 off Y cut substrates 0 23 Fig 3 b X Y LN Y X Z LN OZ X 3 3 28 Y Fig 4 4 52 5um Y 2 5 3 3 LN SHG SHG 3
251. suya KONAGAYA Kazuaki YOSHIDA Makoto SUZUKI and Yasufumi NAKAI 19 Development of Blue Waveguide SHG Second Harmonic Generation Laser Masami HATORI Hideo MIURA Isao TURUMA and Shinichiro SONODA T 26 Development of New Fuji G COLOR FILM PROLASER FC FT eesossssscsccecessessesseosessessesescesessoosesceoeeseccecsecssccesceccessescescessescessesescesesseoseocesecseccecceoccccecccoon Jun MATSUMOTO and Yuji KUME ee 32 Development of a New Pictro Paper PZ PG SG Ever Rich eo Kiyoshi IRITA and Takuji KOSUGI T 36 Development of New Digital Printing System with Completely Mono Sheet and Full Color Characteristics Yuuichi FUKUSHIGE Hirotaka MATSUMOTO Kozo NAGATA Kyoko HANASAKI Masanobu TAKASHIMA Yoshimitsu ARAI and Shintaro WASHIZU 39 Elemental Mapping in Poly urea urethane Microcapsules by ESI TEM The Control of Physical Properties in Nanometer scale lai Sa Takeshi MIYATO Yuki MATSUNAMI Kimio ICHIKAWA and Hirokazu HASEGAWA 44 High Quality Image Processing Technology Image Intelligence eeseoesssssesosososeeeoososeseoeooecseoeeoeoecseosescesecebeoecsceseooeoeceeseeeosccesooosececceeoeosoceeoovcosesceeoocscececveceo Fumito TAKEMOTO and Akira YODA T 49 Development of PHOTO MIRACLE Service as an NTT DoCoMo Official Site Content NE Kenya TAKAMIDO Kazuo WASHIO Hiroshi SUGANUMA Norihisa HANEDA and Masafumi INUIYA 55 Development of Process less Thermal CTP Pla
252. te LD NS sesessossossosossosossossossosossesossoscosseseseeseossescoscoso Norio AOSHIMA Toshifumi INNO Koji AOSHIMA and Nobuyuki KITA T 60 Development of Digital Thermal Plate Processors LP940HII and LP1310HII 777788 Chikashi OHISHI 64 Development of FePt and FePtCu Magnetic Nanoparticles by Reverse Micelle Method eeesoossoseseoeoocseceooeoccseoseceoseceoovecececeeee Koukichi WAKI Genichi FURUSAWA Keizou OGAWA and Yasushi HATTORI T 70 Standardization of FUJI DRI CHEM system Kikuo HIRAI Hajime MAKIUCHI and Kaoru TERASHIMA 78 Reprints Theoretical Study on the Structures and Absorption Properties of Yellow Azomethine Dyes ONC Seiji ICHIJIMA Hiroo FUKUNAGA Hidetoshi KOBAYASHI Makoto ISHIHARA and Nobuaki KOGA 84 A Facile Synthesis of 1 4 Dialkoxy 2 5 diiodobenzenes Reaction of Dialkoxybenzenes with lodine Monochloride in Alcoholic Solvents eeesessssesseosescescesccsessscssccescecescessoscessosceseocesceseecescesceseoseoscescoscos Koji WARIISHI Sin ichi MORISHITA and Yoshio INAGAKI T 94 Health Check for a Recipe of Oil in Water Emulsion by Mahalanobis Distance eeessososesosessososesoseseesosesosecsesceesoseosecceesoososcecceeoooscscseceooono Yoshio ISHII Jun OKAMOTO Yasuaki DEGUCHI and Akira IKEDA 97 Characterization of the structures of poly urea urethane microcapsules 0 Yuki MATSUNAMI and Kimio ICHIKAWA 103 CRYSTAL SIZE DEPENDENCE OF REPLENISHMENT EFFECT IN BaFBr Eu oo Yasuhiro KON
253. terials ERM Enzyme Reference Material were certified recently and the solution based wet chemistry method can be standardized by obtaining direct traceability through ERM to the JSCC consensus method On the other hand although the FUJI DRI CHEM system FDC can not utilize ERM directly it has proved that there is a method that FDC can obtain traceability via human specimen to the JSCC transferable method standardized via ERM to the JSCC consensus method In the quality assurance programs to medical institutions it was confirmed that FDC gives data well correlated with those obtained with the JSCC transferable method for human specimen 1 FUJI DRI CHEM FDC E li Photo 1 SER WIKRE SB EUS 2 FDC Photo 1 FDC3500 analyzer wet chemistry
254. v NMS api das dot Table 1 Table 1 Examples of Scene Analysis Technologies 1 2 4 5 3 45 Az mo 4 3
255. veloped new set of chemicals CP 49E We are proud of the high adaptability of Frontier 340E to the specific requirements brought about by the recent digitization of image information due to the rapid prevalence of digital cameras cell phone cameras etc 1 Erontier 1996 Frontier FR LU AT FR350 370 390 lt FR330 2001 FR 4
256. with super dynamic range image processing system D CCD 4 D BB D CCD S N 2 2 CCD 2 D Fig 2 WE CCD
257. ye through poly urea urethane microcapsule membrane A Photoelectrochemical Evidence for the Role of Glutamate at the Extracellular Proton releasing Residue Site in Bacteriorhodopsin 3 WV TN TFT LCD WV Ichijima S Fukunaga H Kobayashi H Ishihara M Koga N Akiba M Inagaki Y Kawamata J Ichikawa K Sato T Koyama K Miyasaka T 15 AY HS Bull Chem Soc Jpn 76 4 733 742 2003 Jpn J Appl Phys Part 2 42 1A B L17 L19 2003 J Membr Sci 213 1 2 25 31 2003 71 2 100 104 2003 6 65 68 2003 52 1 109 111 2003 toO Er HE JB b AL oO _TN TET LCD WV 9 6 80 86 2003 ok WAH oh y Sat ae 60 12 1190 1200 2002 mom BR N SE n ME Nematic Conformation of Oxyethylene Spacers Involved Iwanaga H Macromol Symp 192 239 250 2003 in Main Chain Liquid Crystals Furuya H
Download Pdf Manuals
Related Search