Transcript 幻灯片 1

CRAAMD
Activities 2005-2007
Jun Yan
Institute of Applied Physics and
Computational Mathematics
IAEA DCN Meeting, Vienna, Oct. 3-5, 2007
CRAAMD:
China Research Association of Atomic and Molecular Data
Founded in 1987
 Physicists and their Groups

Institute of Applied Physic and Computational Mathematics
 Ma Xin-Wen(马新文), Institute of Modern Physic, CAS
 Qu Yi-Zhi(屈一至), Graduate School of CAS
 Chen Chong-Yang(陈重阳), Fudan University
 Luo Zheng-Ming(罗正明), Sichuan University
 Ding Da-Jun(丁大军), Jilin University
 Zhu Lin-Fan(朱林繁), Science and Technology University of China
 Yuan Jian-Min(袁建民), National University of Defense technology
 Mo Yu-Xiang(莫宇翔), Tsinghua University
 Dong Chen-Zhong(董晨钟), Northwest Normal University

Joined and contributed in past two years
Members of Atomic and Molecular
Data Research Center, IAPCM
Yan Jun (颜君)
Li Yue-Ming (李月明）
He Bin (何斌)
Wu Ze-Qing (吴泽清)
Duan Bin (段斌)
Liu Chun-Lei(刘春雷)
Pang Jin-qiao(逄锦桥)
Zhang Hong (张弘)
Zeng Si-Liang (曾思良)
Yu Ling(于伶)
Wang Jian-Guo (王建国)
Liu Ling(刘玲)
Ning Ye(宁烨)
Zou Shi-Yang (邹士阳)
Wu Yong (吴勇)
Han Xiao-Ying (韩小英)
Li Chuan-Ying (李传莹)
Qiu Yu-Bo (邱玉波)
Han Guo-Xing (韩国兴)
Li Ping (李萍)
Photoionization CS of Na
I, 202 channels
F, 202 and 345 channel
Outline




CRAAMD AM Database
Activities
Visitors and Collaborations
ICAMDATA 2008
CRAAMD Database and Webpage
http://www.camdb.ac.cn/
data record numbers
Before 2002
Atomic Energy level
Atomic I.P.
Atomic Spectra
EII of atoms & ions
EIE of atoms & ions
DR
Autoionization
Atomic Photoionization
Opacity
Heavy Particle Collision
Electron Molecule Collision
present
72 000
81 308
2 292
2 292
397 885
583 360
452
858
52 614
58 556
83
In near future
+ K- to Kr-like Au
+ K- to Kr-like Au
+ inner shell EII
& Zn-, Cu-, Ni-, Co-like Au
+ K- to Ni- like ions
+ OS, GOS
+ He-like ions
19 139
1 266
Z<31 (DCA) Mixture
11 000 (CT)
+ DLA (online Calculation)
+ (see, recent activities)
24 molecular, OS, GOS
Molecular Energy Level
+ Vibrational
Molecular I.P.
+ Molecular ion (ZEKE)
Molecular Spectra
+H2,HD,H2O, CO2, CBrCl ..
Activities

Organizing data compilation, evaluation & production









Dr. Dong: Energy levels and spectra of M-shell Au ions
Dr. Qu, Dr. Ma, and Dr. Yan: Heavy particle collision
Dr. Chen: EII of Ni-like ions
Dr. Yuan: DLA opacity
Dr. Ding: Molecular spectra
Dr. Luo: Inner shell EII
Dr. Zhu: OS and GOS of atom and molecule
Dr. Mo: ZEKE data of Molecular ionization potentials and Vibrational
energy levels of molecule ions
Some examples
Heavy Particle Collision
300
250
n=2
n=3
n=1
200
counts
Ground state
Excited states
150
100
50
X.W. Ma
0
-4
-2
0
P
2
(a.u.)
4
6
Heavy Particle Collision
Arq+ + Ar，
Arq+ + Ne，
Arq+ + He，
Bq+ + He，
Beq+ + He，
Cq+ + He，
Csq+ + He，
Hq+ + He，
Dq+ + He，
H2q+ + He，
Heq+ + He，
3Heq+ + He，
Iq+ + He，
Kq+ + He，
Krq+ + He，
q=8,9,11,12
q=8,9,11,12
q=2,3,….,12
q=5
q=4
q=4,6
q=1
q=1
q=1
q=1
q=2
q=2
q=5-17,19,20,22,24,26
q=1
q=2-9
Liq+ + He，
Nq+ + He，
Neq+ + He，
Oq+ + He，
Pq+ + He，
Pbq+ + He，
Sq+ + He，
Siq+ + He，
Uq+ + He，
Vq+ + He，
Xeq+ + He，
q=3
q=4-7
q=1-8
q=2,3,5-8
q=3-5
q=2-8
q=13
q=4,11
q=17-37,40,44
q=18-23
q=2-14
Data from
AFRV 74 V.V. Afrosimov, G.A. Leiko, YU.A. Mamaev and M.N.Panov, Zh. Eksp. Teor. Fiz. 67, 1329 (1974): Sov. Phys.
JETP 40, 661 (1975)
AFRV 86, AFRV 86 T V. V. Afrosimov, A.A. Basalaev, M.N. Panov and A.V.Samoilov, Zh. Eksp. Teor. Fiz. 91. 465
(1986): Sov. Phys. JETP 64, 273 (1986)
ALMD 87 D.P. Almeida, N.V. de Castro Faria. F.L. Freire, Jr.,B.C. Montenegro and A.G. de Pinho, Phys. Rev. A 36,
16(1987)
BAN 77BT K.E. Banyard and B.J. Szuster, J. Phys. B 10. L 503(1977)
BELD 86T D. Belkic, R. Gayet, J. Hanssen and A. Salin. J. Phys.B 19, 2945 (1986)
BELD 88T D. Belkic. Phys. Rev. A 37. 55 (1988)
BLIS 81 S. Bliman, S. Dousson, B. Jacquot and D. van Houtte, J. de Physique 42. 1387 (1981)
BLOE 82 E.W.P. Bloemen, D. Dijkkamp and F.J. de Heer, J. Phys. B 15, 1391 (1982)
BORA 85 A. Bordenave-Montesquieu, P. Benoit-Cattin, A. Gleizes, A.I. Harrakchi, S. Dousson and D. Hitz, Nucl. Inst.
and Methods B9, 389 (1985)
BOUT 88 T. Bouchama, M. Druetta and S. Martin, Nucl. Inst. And Methods B31, 371 (1988)
BREM 50 M.M. Bredov and N.V. Fedorenko. Zh. Tekh. Fiz. 20, 1464 (1950)
BURJ 86T J. Burgdoerfer. Phys. Rev. A 33, 1578 (1986)
CLAM 85B M. Clark and S.M. Shafroth, Nucl. Inst. and Methods B10/11, 124 (1985)
CLAM 86 M.W. Clark, E.M. Bernstein, J.A. Tanis, W.G. Graham, R.H. McFarland, T.J. Morgan, B.M. Johnson, K.W.
Jones and M. Meron, Phys. Rev. A 33, 762 (1986)
CRAD 71 D.H. Crandall and D.H. Jaecks. Phys. Rev. A 4, 2271(1971)
CROD 87T D.S.F. Crothers and R. McCarroll, J. Phys. B 20, 2835 (1987)
DATS 87 S. Datz, R. Hippier, L.H. Andersen. P.F. Dittner, H. Knudsen, H.F. Krause, P.D. Miller. P.L. Pepmiller, T.M.
Rosseel, N. Stolterfoht, Y. Yamazaki and C.R. Vane, Nucl. Inst. and Methods A262, 62 (1987); priv. communication
(1988)
DEWD 87T D.P. Dewangan and J. Eichler, Nucl. Inst. and Methods 823. 160 (1987)
DMlI 77 I,S. Dmitriev, YU.A. Tashaev. V.S. Nikolaev. Ya.A. Teplova and B.M. Popov, Zh. Eksp. Teor. Fiz. 73. 1684 (1977);
Sov. Phys. JETP 46. 884 (1977)
DRUM 87, DRUM 87T M. Druetta, S. Martin, T. Bouchama, C. Harel end H. Jouin, Phys. Rev. A 36, 3071 (1987)
DUBR 86 R.D. Dubois, Phys. Rev. A 33. 1595 (1986)
DUBR 87 R.D. Dubois, Phys. Rev. A 36, 2585 (1987)
ERRL 86T L.F. Errea, F. Martin, L. Mendez, A. Riera and M. Yanez, J. Chem. Phys. 84, 5422 (1986)
FRIW 86T W. Fritsch and C.D. Lin, J. Phys. B 19, 2683 (1986)
GAIT 68 T.D. Gaily, D.H. Jaecks and R. Geballe, Phys. Rev. 167,81 (1968)
GARJ 85T J.D. Garcia, Nucl. Inst. and Methods A240, 552 (1985)
GAYR 87T R. Gayet and A. Salin, J. Phys. B 20, L571 (1987)
GAZB 86T B. Gazdy and D.A. Micha, Phys. Rev. A 33, 4446 (1986)
GHOM 87T M. Ghosh, C.R. Mandal and S.C. Hukherjee, Phys. Rev. A 35, 5259 (1987)
GUFJ 77, GVFJ 77T J.A. Guffey, L.D. Ellsworth and J.R. Macdonald, Phys. Rev. A 15, 1863 (1977)
HEIT 87T T.G. Heil and J.B. Sharma. Phys. Rev. A 36, 3669 (1987)
HIPR 85 R. Hippler, S. Datz, P.D. Miller and P.L. Pepmiller, Abstracts of Contr. Papers. p. 505. XIV ICPEAC in Palo Alto,
USA, ed. H.J. Coggiola, D.L. Huestis and R.P. Saxon (1985) (compare with HIPR 87A)
HIPR 86, HIPR 86T R. Hippler, W. Harbich, M. Faust, H.O. Lutz and L.J. Dube, J. Phys. B 19, 1507 (1986)
HIPR 87A. HIPR 87AT R. Hippler, S. Datz, P.D. Miller, P.L. Pepmiller and P.F. Dittner, Phys. Rev. A 35, 585 (1987)
(compare with HIPR 85)
HIPR 87B R. Hippler, W. Harbich, B. Madeheim, H. Kleinpoppen and H.O. Lutz, Phys. Rev. A 35, 3139 (1987)
HOER 87 R. Hoekstra. F.J. de Heer and H. Winter, Nucl. Inst. and Methods 823, 104 (1987)
HORE 83 E. Horsdal-Pederson, C.L. Cocke and M. Stockli, Phys. Rev. Lett. 50, 1910(1983); Abstracts of Contr. Papers. p.
478, XIII International Conference on the Physics of Electronic and Atomic Collisions, Berlin, ed. J. Eichler, I.V. Hertel, N.
Stolterfoht and U. Wille (North-Holland, Amsterdam. 1983) ; Invited Papers, p. 541. XIII ICPEAC, Berlin, ed. J. Eichler, I.V.
Hertel, N. Stolterfoht and U. Wille (North-Holland, Amsterdam,1984) (compare with ROBM 87T)
HORW 86 W.G. Hormis, J.B. Hasted, E.Y. Kamber. A.G. Brenton and J.H. Beynon, Int. J. Mass Spectrom. Ion Phys. 70,
153 (1986)
HORW 87 W.G. Hormis, E.Y. Kamber, J.B. Hasted, A.G. Brenton and J.H. Beynon, Int. J. Mass Spectrom. Ion Phys. 76,
263 (1987)
JAIA 86T A. Jain, C.D. Lin and W. Fritsch. Phys. Rev. A 34, 3676 (1986)
JAIA 87T A. Jain, C.D. Lin and W. Fritsch. Phys. Rev. A 36, 2041 (1987)
KAME 87 E.Y. Kamber, W.G. Hormis, A.G. Brenton, J.B. Hasted and J.H. Beynon, J. Phys. B 20, 105 (1987)
KARM 84T M.I. Karbovanets, V.Y. Lazur and M.I. Chibisov, Zh. Eksp. Teor. Fiz. 86, 84 (1984); Sov. Phys. JETP 59, 47
(1984)
KHAG 75 G.A. Khayrallah and J.E. Bayfield. Phys. Rev. A 11. 930 (1975)
KIKB 86 B.I. Kikiani, R.A. Lomsadze, M.R. Gochitashvili, N.O. Mosulishvili and Y.M. Lavrov, Zh. Eksp. Teor. Fiz. 91. 792
(1986); Sov. Phys. JETP 64, 468 (1986)
KIM 86AT W. Kimura and C.D. Lin, Phys. Rev. A 34, 176 (1986)
KIM 86BT M. Kimura and N .F. Lane, Phys. Rev. A 34, 4421 (1986)
KIMM 85T M. Kimura and R.E. Olson, Nucl. Inst. and Methods B10/11, 207 (1985)
KIMH 88T M. Kimura, J. Phys. B 21, L19 (1988)
KOSH 88 H.R. Koslowski. private communication (1988)
KUST 86, KUST 86T T. Kusakabe, T. Horiuchi, N. Nagai, H. Hanaki, I. Konomi and M. Sakisaka, J. Phys. B 19, 2165
(1986)
MARF 86T F. Martin, A. Riera and M. Yanez. Phys. Rev. A 34, 4675 (1986)
MCDE 77 E.W. McDaniel, M.R. Flannery, H.W. Ellis, F.L. Eisele and W. Pope, U.S. Army Missile Research and
Development Command Technical Report No.Hx (1977) 78-1, 1977
PANM 87 M.N. Panov, A.A. Basalaev and K.O. Lozhkin, Fiz. Elektr. Atom. Stolknowenie. p 125, Leningrad. 1987
OPR 85BT L. Opradolce, R. McCarroll and P. Valiron. Astron. Astrophys. 148, 229 (1985)
REIC 86T C.O. Reinhold and C.A. Falcon, Phys. Rev. A 33, 3859 (1986)
ROBM 87T M.J. Roberts, J. Phys. B 20, 551 (1987) (compare with HORE 83)
ROUF 77 F. Roussel, P. Pradel and G. Spiess. Phys. Rev. A 16, 1854 (1977)
SAHG 86T G.C. Saha, S. Datta and S.C. Mukherjee, Phys. Rev. A 34, 2809 (1986)
SCHC 84 C. Schmeissner, C.L. Cocke, R. Mann and W. Meyerhof, Phys. Rev. A 30, 1661 (1984)
SCHW 87 W. Schwab, G.8. Baptista, E. Justiniano, R. Schuch, H. Vogt and E.W. Weber, J. Phys. B 20, 2825 (1987)
SHAM 76 M.B. Shah and H.B. Gilbody. J. Phys. B 9, 1933 (1976)
SHAM 85 H.B. Shah and H.B. Gilbody, J. Phys. B 18, 899 (1985)
SHEV 78T V.P. Shevelko, Z. Phys. A 287, 19 (1978)
SHIN 87T N. Shimakura, H. Sato. M. Kimura and T. Watanabe, J. Phys. B 20, 1801 (1987)
STOM 84T M.T. Stollberg and H.-W. Lee, Phys. Rev. A 29. 2448 (1986)
SUZY 86, SUZY 86T Y. Suzuki, T. Kaneko, M. Tomita and M. Sakisaka, J. Phys. Soc. Japan 55, 3037 (1986)
TANJ 85B J.A. Tanis, E.M. Bernstein, C.S. Oglesby, W.G. Graham, M. Clark, R.H. McFarland, T.J. Morgan, H.P. Stockli,
K.H. Berkner, A.S. Schlachter, J.W. Stearns, B.M.
Johnson, K.W. Jones and M. Meron, Nucl. Inst. and Methods B10/11, 128 (1985)
TOSN 87T N. Toshima, T. Ishihara and J. Eichler, Phys. Rev. A 36, 2659 (1987)
WILJ 66B J.F. Williams and D.N.F. Dunbar, Phys. Rev. 149, 62 (1966)
ZAJD 86T D. Zajfman end D. Maor. Phys. Rev. Lett. 56. 320 (1986)
ZOUT 87 T.J.M. Zouros, D. Schneider and N. Stolterfoht, Phys. Rev. A 35,1963 (1987)
Fritsch94 W. Fritsch, J . Phys. B: At. Mol. Opt. Phys. 27 (1994) 3461-3474
X. Ma98 博士论文，中国科学院近代物理研究所，1998
Ma2003 Ma Xinwen, Liu Huiping, Chen Ximeng, Yang Zhihu, Shen Ziyong, Wang Youde, Yu Deyang, Cai Xiaohong, Liu
Zhaoyua Science in China (Series G) 46 (2003) 552,
Ma1999, Xinwen Ma, Huiping Liu, Youde Wang, Yang Zhihu Physics Scripta, T80, (1999) 375,
Zhu2006a Zhu Xiao-long, Ma Xin-wen, Li Bin, Liu Hui-ping, Chen Lan-fang, Zhang Shao-feng, Qian Dongbin, Feng Wentian, Cao Shi-ping, Sha Shan, Zhang Da-chen
Zhu2006b 博士论文，中国科学院近代物理研究所，2006
Heavy Particle Collision
charge transfer
H   H 2 / D2 / T2 / HD / HT / DT
 H  H 2 / D2 / T2 / HD  / HT  / DT 
D   H 2 / D2 / T2 / HD / HT / DT
 D  H 2 / D2 / T2 / HD  / HT  / DT 
T   H 2 / D2 / T2 / HD / HT / DT
MCLZ
H- + H2+ -> H + H2
H- + H3+ -> H + H3
-> H2 + H + H
H- + Si+ <-> H +Si
 T  H 2 / D2 / T2 / HD  / HT  / DT 
Rearrangement
H   D2 / T2  D / T  HD  / HT 
......
Transfer disociation
H   D2  HD  D   H  D  D 
......
charge transfer
He
q
 He / Ne / Ar / Kr
F q   H / Ne / Ar
H   N 2 / O2 / CO / CO2 / CH 4 / C2 H 2 / C2 H 6 / CF4 / SF6 / C2 F6 / C4 F8
Be q   H 2 / D2 / DT
He q   H 2 / N 2 / O2 / CO / CO2 / CH 4 / H 2O
C q   H 2 / D2 / CO / CO2 / CH 4 / C2 H 6
N q   H 2 / CO2 / H 2O
O q   H 2 / CO2 / H 2O
CDW
He2+ + Cq+
He2+ + Siq+
CTMC
O3+ + He
Inner shell ionization
Si (Li) detector
e

d

This target
Substrate
Experimental illustration _ Z.M. Luo
MEASUREMENT RESULTS
1
2
3
4
5
6
7
Ⅰ
A
1
H
3
Li
11
Na
19
K
37
Rb
55
Cs
87
Fr
O
Ⅱ
A
4
Be
12
Mg
20
Ca
38
Sr
56
Ba
88
Ra
Ⅲ
B
21
Sc
39
Y
La
Lu
Ac
Lr
Ⅳ
B
22
Ti
40
Zr
72
Hf
104
Rf
Ⅴ
B
23
V
41
Nb
73
Ta
105
Ha
Ⅵ
B
24
Cr
42
Mo
74
W
106
Unh
Ⅶ
B
25
Mn
43
Tc
75
Re
107
Uns
La
Lu
Ac
Lr
57
La
89
Ac
58
Ce
90
Th
59
Pr
91
Pa
60
Nd
92
U
61
Pm
93
Np
26
Fe
44
Ru
76
Os
108
Uno
Ⅷ
B
27
Co
45
Rh
77
Ir
109
Une
62
Sm
94
Pu
63
Eu
95
Am
28
Ni
46
Pd
78
Pt
Ⅰ
B
29
Cu
47
Ag
79
Au
Ⅱ
B
30
Zn
48
Cd
80
Hg
Ⅲ
A
5
B
13
Al
31
Ga
49
In
81
Tl
64
Gd
96
Cm
65
Tb
97
Bk
66
Dy
98
Cf
67
Ho
99
Es
Ⅳ
A
6
C
14
Si
32
Ge
50
Sn
82
Pb
Ⅴ
A
7
N
15
P
33
As
51
Sb
83
Bi
Ⅵ
A
8
O
16
S
34
Se
52
Te
84
Po
Ⅶ
A
9
F
17
Cl
35
Br
53
I
85
At
68
Er
100
Fm
69
Tm
101
Md
70
Yb
102
No
71
Lu
103
Lr
2
He
10
Ne
18
Ar
36
Kr
54
Xe
86
Rn
Red ---the measurement data from 1930’s to1992
Green---our measurement data after 1994 some of them, such as Fe, W,
Mo are important for Fusion Reactor Technique
The K-shell ionization cross sections by electron impact for Fe
as a function of electron energies. Open circles are the uncorrected
measured data. Full circles are the corrected measured data. The
full curve is the results of the empirical formula given by Casnati
et al
K-shell ionization cross sections for Mo as a function of electron energy.
Solid line is Casnati’s empirical approach. Dotted line is empirical
approach of Jacob et al. Dashed line is theoretical calculation of Rudge
et al. Full circles are corrected data. Open circles are uncorrected data.
Opacity (DLA)
Energy levles and radiative transition properties for low-Z elements (Z<20) and some
moderate and high-Z Elements like Fe, Br, Au
Molecular I.P. & Vibrational E.l. of molecule ions
(NO)2、AlNH3、Ar2、Ar、 ArCl-、 BCl3、 C2D4、 C2H2、 C2H3Br、 C2H4
C2H5Br、 C2H5I、 C6H5Ch3-SF6、 C6H6Cl、 C6H6、 CD2CO、 CD3CN、 CD3I
CD4、 CH2CO、 CH3Br、 CH3CH2S、 CH3CH2SH、 CH3Cl、 CH3CN、 CH3I
CH3SCH3、 CH3SH、 CH4、 CO2、 CO、 CS2、 F2、 H2O、 H2S、 HBr、 HI、
I2、 IBr、 Kr2、 KrXe、 MgCH3、 N2、 N2O、 ND3、 NH3、 NO2、 O2、 O3、
OCS、 OD、 OH、 SO2、 V2、 Xe2、 XeCl-、 Xe2I-、 XenI-、 ZnCH3、
trans-1-CH3CHCHBr、 trans-CH3CHCHCH3、 cis-1-CH3CHCHBr、cis-CH3CHCHCH3
分子
离子基态
CD3CN
X 2E
电离能 (cm-1)
98630
离子态对称性 (X 2E)
振动对称性 序号 近似模式 cm-1
a1
2
CN伸缩
2029
a1
4
CC伸缩
825
e
6
CD3变形
934
e
8
CCN弯曲 302
精度
8
方法
ZEKE
文献
[a]
方法
文献
ZEKE
[a]
ZEKE
[a]
ZEKE
[a]
ZEKE
[a]
备注
L
L
L
L
备注
L
文献:
[a]Jie Yang.Chang Zhou,and Yuxiaing Mo.,J. Phys. Chem. A 109, 9964-9968 (2005).
EIE of Ni-like Gd, Ta, W
(a)
-11
1
9
3d
10
-1
3d3/24p1/2(J=1)
3 -1
Rate Coefficient (cm s )
10
6000
-1
-1
3s -15l'n"l"
3p 5l'n"l"
-1
3d 5l'n"l"
-1
3s 4l'n"l"
-1
3p 4l'n"l"
-1
3d 4l'n"l"
4000
3d 4l
f1
2
6
3s 3p 3d
present DE rates
present RE rates
present Total rates
DE rates from Ref.[6]
RE rates from Ref.[6]
-13
10
-1
-14
10
0
500
1000
1500
kT (eV)
10
k
2000
1
-11
10
12
10
3d
2000
2500
Ta
-1
3d5/2p1/2J=1
18
-1
3
3l n"l"
Rate Coefficient (cm s )
Energy(eV)
3s 4l
-1
3p 4l
-12
10
0
-12
10
present DE rates
present RE rates
present Total rates
DE rates from Ref.[6]
RE rates from Ref.[6]
-13
10
-14
10
0
500
1000
1500
kT (eV)
2000
2500
EIE of Ni-like Gd, Ta, W
level
2
3
4
5
W
6
7
400eV
800eV
1200eV
1500eV
2500eV
DE
4.29-14
1.91-13
2.72-13
2.96-13
2.91-13
RE
3.78-13
1.19-12
1.36-12
1.32-12
9.99-13
DE
1.34-13
6.90-13
1.11-12
1.32-12
1.64-12
RE
5.25-13
1.70-12
1.97-12
1.92-12
1.47-12
DE
1.66-14
7.96-14
1.16-13
1.27-13
1.27-13
RE
1.60-13
5.57-13
6.65-13
6.55-13
5.11-13
DE
7.87-14
4.34-13
7.11-13
8.46-13
1.05-12
RE
4.12-13
1.41-12
1.67-12
1.64-12
1.27-12
DE
3.49-14
1.77-13
2.63-13
2.91-13
2.93-13
RE
2.17-13
7.68-13
9.17-13
9.01-13
6.99-13
DE
6.01-14
3.27-13
5.22-13
6.09-13
7.15-13
RE
2.17-13
7.77-13
9.31-13
9.16-13
7.12-13
DE
1.65-15
4.85-14
1.29-13
1.80-13
2.62-13
RE
4.46-16
9.62-15
2.08-14
2.58-14
2.91-14
DE
6.75-15
2.41-13
7.46-13
1.15-12
2.16-12
RE
3.82-16
8.36-15
1.82-14
2.27-14
2.56-14
………………………………………..
106
107
Visitors and Collaborations










R. K. Janev (Macedonia)
A. Faenov and I. Skobelev (Russia)
Marie-Lise Dubernet (France)
K. Katsonis and B. Chloe (France) (Xe)
M. Kimura (Japan)
P. C. Stancil (U.S.A.)
P. Krstic (U.S.A.)
R. Buenker (Germany)
B. Yan (China, Jilin Univ.)
Collaboration of Fe M-shell with D. Kato
ICAMDATA 6: Oct. 28-31, 2008
Professional Company for conference
 Tentative Conference Site: Beijing Friendship Hotel

Capital Airport- 34Km
About 45 minutes in
good traffic.
TAXI
Subway
The shuttle bus
Tian`anmen Square
-18Km
About 30 minutes
in good traffic.
ICAMDATA 6: Oct. 28-31, 2008
Beijing Friendship Hotel
http://www.bjfriendshiphotel.com/en/index.html
Four Star garden-style hotels
ICAMDATA 6: Oct. 28-31, 2008
Beijing Friendship Hotel
http://www.bjfriendshiphotel.com/en/index.html
Conference Hall
Guest room: 3 Class
Reception & Banquet
Lunch
Tour
ICAMDATA 6: Oct. 28-31, 2008
Possible Sponsorship: NSFC, CODATA-China
CPS, CAEP, High-Tech ICF
committee, IAPCM
Webpage: December 2007
First Announcement: January 2008
Expectation: ~120 Attendees
(hope and welcome more!!!)
It is time to recommend Invited Speakers
Thank You
For Your Attention