Executive Summary JST-CRDS 16 2 WS 2006 6 2006 12 2007 5 WS JST NIST 11 WS NIST CRDS WS Real Part Imaginary Part vs Nonlinear Disruptive WS
2008 1 12 WS WS 4 WS 1 X 2 IT THz 3 X H20 JST 1
3 THz - PC 4 IT WS
1 1 1.1 1 1.2 1 1.3 2 1.4 3 1.5 4 1.6 4 1.7 6 2 7 2.1 7 2.2 8 2.3 1 11 2.4 2 23 2.5 3 37 2.6 4 44 2.7 52 Appendix 1 60 2 68 3 72
1 1.1 JST CRDS 1981 NIST JST/CRDS 80 CRDS 5 10 1 2 3 3 3 4 1.2 5 10
1 3 3 3 1 2 3 2 JST/CRDS 1 1.3 JST/CRDS 1 2 1 2
2 1.4 NIST IT
1.5 20 1 12 ( ) 10 15 18 00 JST 1.6
10:15-10:20 10:20-10:30 10:30-10:40 10:40-12:20 1 (1) 10:40-10:55 (2) 10:55-11:10 (3) 11:10-11:25 XRD (4) 11:25-11:40 (5) 11:40-11:55 SPM (6) 11:55-12:10 (7) 12:10-12:20 12:20-13:10 13:10-14:50 2 13:10-13:25 THz 13:25-13:40 13:40-13:55 13:55-14:10 3 14:10-14:25 14:25-14:40 14:40-14:50 14:50-15:00 15:00-15:55 3 15:00-15:15 THz 15:15-15:30-15:30-15:45 PC 15:45-15:55 15:55-16:50 4 15:55-16:10 16:10-16:25 16:25-16:35 16:35-16:50 16:50-17:05 17:05-18:00 18:00
2. 2.1 JST/CRDS 3 1 2 3 4 3 3
2.2 1300 20 1 20 1 100 200 2 3 4
JST DOE NSF NIST NIST 11 7
NIST 10 5 JST 20 55 150 10 30 GNP
2.3 S1-1 TEM TEM 1 450 4000
1 0.1 0.1
6 6 3 TEM TEM
S1-2 HPLC 1970 HPLC 2004 UPLC 1 7 7 15 1 40 20 10 5 2 10 1
500 3 1 8 200 HCLC 1 8 1 2
HPLC S1-3 XRD XRD 9 4 2 9 5 X 6 5000 3000
2 FEL S1-4 NMR JST NMR 10 3 1 42.6 950 22.3 10 JASTEC 930 40 10 50% 10 1 1 23.6 24
20 22 2.2 K 4.2 K JST 1 1 2422 2 2 NIMS JST 1000 1000 NMR ESR NMR 14.1 600 14.1 ESR 394 1000 S1-5 STM,AFM,SNDM 50 1 2 SPM SPM STM AFM
AFM AFM AFM AFM AFM 11 11 2 AFM 111
7 7 IBM GaAs MnGa Mn STM AFM AFM AFM STM S1-6 10-12 10-15 10-18 10-21 NMR J J 100 1930 120 14C 1 2 5 6
12 15 12 35 13
JST 13 1 JST CREST S1 Q A C 1 IT BT NT
20 10 10 ips? S2-1 THz THz 1THz 0.1THz 3 mm 10THz 30 m 100
1 14 THz Time-Domain Spectroscopy; THz- TDS 14 1984 Auston 1995 S/N
15 TeraView ThruVision 15 2005 3 2015
2011 X 2007 2015 S2-2 16 16 MURI EU
2 17 17
1902 86 800 15 AFM 15 0.3 DNA EU S2-3 RBS RBS 18 100 kev 10 1 0.2nm RBS HRBS HRBS RBS SIMS 10
18 10 10 RBS 0.3 1 0.2 ALIS FIM
RBS RBS19 XPS XPS HRBSXPS 19 S2-4 3
2 3 3 2 3 20 3 FIM FIM TOF 1 TOF 2 3 TOF TEM 1 80 20
STEM 2 FIB 1 20 FIB 4 80 3 1 3 GMR IT S2-5 21
21 TRG Transient Reflecting Grating 1 2 SiO2 p Si 40 DLC
SERS CT SERS 30 CT CT 22 22 1
S2-6 X X XX CT X 23 23 X 3 1 SUS304 X 2 3 3 X X ISO X SUS347 10 0.096
X X ppb 24 X X 24 100 X X S2 Q A C 3
32 22 2.5 S3-1 Josephson Plasma THz 1 THz 2 1000
25 25 BSCCO 1000 2 1000 106 23 14 0.5THz 3THz 10 5 20K 50K 4.2K 26
S3-2 NTT 3 SQUID 10-3 0 10-5 0 SQUID 27 2 1 1 A 2004
28 LC 2 LC 2 99 Mooij 3 3 0 0.5 0 1 3 2 1
Rabi Ramsey echo LC Rabi 29 [ ] NTT 2007 11 http://www.ntt.co.jp/journal/0711/files/jn200711018.pdf NTT http://www.brl.ntt.co.jp/group/butsucho-g/index.html S3-3 PC 1 2 3
30 30 2 Q 1
31 31 -V IBMLSI AWG Arrayed Waveguide Grating 100 5 15 S3 Q A C
2 NIST 3 Yale UC Santa Barbara NIST Mooij Delft Chalmers CEA-Saclay NEC NTT NV 2.6 S4-1 /JST
1 27 32 1000 1 1 m 3 0.6 1 1
100 1 nm 1 1 33 MEMS S4-2 Maryland /JST
34 MATLAB LABVIEW X X 3
SPM ESR S4-3 Maryland /JST FLAMAC FLAMAC HTE 35 FTIR DSC
NSF DARPA IARPA S4-4 S4-4-1
36 1984 92 94 20 30 nm 10 20 nm 1
S4-4-2 ips JST induced Pluripotent Stem Cell ips Embryonic Stem Cell ES MIT NIH JST CREST 4 5 37 FCM ips ips FCM ips GMP MRI
MRI 2.7 12 18 2006 12 6 7000 30% 2000 H15 2000 H121700 4000 1 TEM3D 1 1
-MS 37 -MS microsampling mass spectrometry 37 TOF SIMS 38 2 EPMA SIMS 10nm 100nm Gradient Sharing Preparation 400nm 400nm 200 m 500 m 0.04 3
NEDO EELS SPM X XAFS 39 39
C in vivo in situ in vivo C X CT C C 1 10 6 32 40 C
C FIB TEM EELS C C C C 4 1 600
C DARPA C Q A 1987 C
JST 3 C 1 n
Appendix
Q1 Q10 Q 1 Q 2 Q 1 5 5 20 20 Q 3 Q 1
Q 4 Q 3 Q 5 Q 6 Translational Research Translational Measurement Research Translational Measurement Research TMR 1 TEM 2 Qbit 3 Q 7 /
IT IT Q 8 Q 7 Q 9 SR Q10
Q11 if any
AFM 20 30 nm 1pm 0.1pm 10msec / / 10 nm 3 TEM X 130eV TEM 10eV TEM 0.5THz-3THz 0.5THz-5THz 5 / ATR / 20 1mm 10nm 1sec 1 1nm 100 m 0. msec TOF-SIMS 1-2 m 100 nm X 1 D/tex Ultra 100 cps 20 100 cps 40 HPLC 50s S-1 5s DNA 1000 direct stoichiometric formula 5 10
5 20 5 5 5 20 5 20 5 20.. IBM Almaden AFM Dr.Heinrich Eigler FIB EDS TEM 5 20 Imago Scientific, L o c a l E l e c t r o d e Oak Ridge National Atom Probe Lab TEAM 5 R e n s s e l a e r P o l y - technic Institute 1msec 1msec Aspectrics 3 100 m Axsun instruments FTIR 0.1msec 0.1msec 5 20 psec MEMS o.1nm 100 m 5 5 5 20 NIST XPS ALIS Corporation 4 5 2,.,,.. P u r d u e U n i v e r s i t y, Johns Hopkins University, Florida State University, Vanderbilt University School of Medicine FT-ICRMS 5 5 20 5 20 5 1ps CO2 50 15 1 DARPA Waters Agilent UPLC DNA Harvard University, Stanford University, University of Illinois 1 2 5 5 20 5 20 5 state-of-the-art 5 Penn State MBE insitu
University of Regensburg Prof. Dr. F. J. Giessibl AFM U n i v e r s i t y o f Rouen CEOS Laser Assisted Wide Angle Tomographic Atom Probe Tera View Bruker Ion Tof Uppsala University, ETH, Frankfurt University MALDI X CCD 2D 1 10 X 2 Vrije University Brussel The Kinetic Plot Method IT Pascal Co MBE Twente
Q Translation Research NMR SEM XPS EL TEM-EELS / Translational Measurement Research Measurement Translation Translational Measurement Q7-Q10
1 2 1 3, 3 TEM THz 4 Serendipitous 5 WS
Q1. X X Q2. Q3. nm Serendipitous X X AFM AFM MS MS GaAS As GaAs GaAs 18 NEDO AIST TEM TEM SEM X 3 2 X X 2 CNT X X CNT SPM 2 X / X 2 HREM STM
X AFM THz PF X AFM THz THz TOF-SIMS THz 5 20 5 THz THz -Omics THz THz THz THz THz THz THz 5 20 5 THz 5 20 THz 5 THz THz MEMS THz
S1-1. S1-2. S1-3. XRD S1-4. S1-5. SPM S1-6. S2-1. THz S2-2. S2-3. S2-4. 3 S2-5. S2-6. S3-1. THz S3-2. - S3-3. PC) S4-1. S4-2. S4-3. S4-4.
科学技術シーズを産業につなぐための先端計測 73 CRDS-FY2007-WR-18 独立行政法人科学技術振興機構 研究開発戦略センター
L. Ozyuzer et al., Science 318, 1291(2007)
NTT Vol.19 No.11, pp.18-23 NTT Vol.19 No.11, pp.18-23 NTT Vol.19 No.11, pp.18-23
CRDS FY2007 WR 18 102-0084 http://crds.jst.go.jp/ 20 3