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International goals To offer to the nuclear fusion community, in a global scale, a channel for a direct, easy and rapid access to the brazilian scientific production in AMPP To strenght the worldwide insertion of brazilian AMPP data into the literature.
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• To join as much as possible of the brazilian scientific and technological production in atomic, molecular and plasma physics that may be of interest to nuclear fusion research
BRAMPDAC´s main objectives:
• To provide a direct, easy and rapid access to these data via the web
• To promote, as much as possible, data exchange between the brazilian atomic, molecular and plasma physics communities
International goals• To offer to the nuclear fusion
community, in a global scale, a channel for a direct, easy and rapid access to the brazilian scientific production in AMPP
• To strenght the worldwide insertion of brazilian AMPP data into the literature.
A broad-interest data center • Spectroscopic data for atoms (energy
levels, transition rates) and molecules (energy levels, rotational, vibrational, ionization and dissociation parameters, transition rates)
• Collisional data for electron (ion) – atom (molecule) collisions (elastic, rotational, vibrational and electronic excitation, ionization and dissociation cross sections)
• Plasma characterization: data on particle densities and local temperatures
Selected examples of
TCS for Li ionization by H+ and He2+
Fiori et al., PRA 64, 012705 (2001)
TCS for Li ionization by H+ and He2+
Fiori et al., PRA 64, 012705 (2001)
TCS for ionization out of the Li 1s orbital by H^+ impact
Authors: M R Fiori, G Jalbert, C E Bielschowsky and W Cravero,Phys. Rev. A 64, 012705 (2001)
E(keV) TCS(10^-16 cm^2)11.080 1.4392(-4)14.565 6.9272(-4)26.947 6.7036(-3)59.151 5.7743(-2)164.94 1.4652(-1)475.91 1.0953(-1)1744.4 4.3164(-2)
TCS for multi-ionization of Ne by He+
E(Mev) Ne+ Ne2+ Ne3+
1.00 116±17 15±2 2.4±0.6
1.50 76±11 8.3±1.3 0.86±0.22
2.00 82±12 7.5±1.2 0.80±0.20
2.50 64±10 5.3±0.8 0.50±0.13
3.00 69±10 4.9±0.8
3.50 66±10 4.4±0.7
Santos et al., PRA 63, 062717 (2001)
TCS for multi-ionization of Ar by He+
E(Mev) Ar+ Ar2+ Ar3+
1.00 229±34 30±5 6.1±1.2
1.50 206±31 21±4 2.3±0.5
2.00 162±24 17±3 2.4±0.5
2.50 132±20 11±2 1.7±0.3
3.00 134±20 8.5±1.4 1.5±0.3
3.50 108±16 9.1±1.5 1.3±0.3
Santos et al., PRA 63, 062717 (2001)
TCS for multi-ionization of Kr by He+
E(Mev) Kr+ Kr2+ Kr3+
1.00 262±39 47±8 14±2
1.50 179±27 23±4 9.1±1.6
2.00 159±24 23±4 9.2±1.7
2.50 137±21 18±3 9.4±1.7
3.00 133±20 14±2 5.8±1.0
3.50 123±18 12±2 4.7±0.8
Santos et al., PRA 63, 062717 (2001)
TCS for multi-ionization of Xe by He+
E(Mev) Xe+ Xe2+ Xe3+ Xe4+
1.00 290±44 41±7 15±3 10±2 1.50 219±33 32±5 14±3 6.1±1.3 2.00 175±26 27±5 11±2 5.0±1.0 2.50 168±25
27±5 10±2 4.9±1.0
3.00 146±22 24±4 10±2 4.3±0.9 3.50 132±20 20±3 8.2±1.6 4.7±1.0
Santos et al., PRA 63, 062717 (2001)
Single-ionization cross sections of He by He+
Santos et al., PRA 63, 062717 (2001)
Single-ionization cross sections of He by He^(+)
Authors: A. C. F. Santos, W. S. Melo, M. M. Sant´Anna, G. M. Sigaud, and E. C. Montenegro, Phys. Rev. A, 63, 062717 (2001)
Energy (MeV) SICS (Mb) 1.00 881.25 701.50 662.00 562.50 453.00 383.50 33
Double-ionization cross sections of Ar by He+
Double-ionization cross sections of Ar by He^(+)
Authors: A. C. F. Santos, W. S. Melo, M. M. Sant´Anna, G. M. Sigaud, and E. C. Montenegro, Phys. Rev. A, 63, 062717 (2001)
Energy (MeV) DICS (Mb) 1.00 30 1.50 212.00 172.50 113.00 8.53.50 9.1
Santos et al., PRA 63, 062717 (2001)
TCS for single electron capture
from H and H2 by He2+ impact
Sant´Anna et al., PRA 61, 052717 (2000)
TCS for single electron capture from H by He2+
Sant´Anna et al., PRA 61, 052717 (2000)
TCS for single electron capture from H by He^(2+)
Authors: M. M. Sant´Anna, W. S. Melo, A. C. F. Santos, V. L. B. de Jesus, M. B. Shah, G. M. Sigaud, E. C. Montenegro, H. S. Busnengo, S. E. Corchs, R. D. Rivarola, and L. Gulyás, Phys. Rev. A, 61, 052717 (2000)
Energy (keV) TCS (10^(-16) cm2) 500 2.83 (-1) 750 5.61 (-2)1000 1.96 (-2)1250 1.00 (-2)1500 4.93 (-3)1750 2.57 (-3)2000 1.37 (-3)2250 8.90 (-4)2500 5.05 (-4)
TCS for single electron capture from H2 by He2+
Sant´Anna et al., PRA 61, 052717 (2000)
TCS for single electron capture from H2 by He^(2+)
Authors: M. M. Sant´Anna, W. S. Melo, A. C. F. Santos, V. L. B. de Jesus, M. B. Shah, G. M. Sigaud, E. C. Montenegro, H. S. Busnengo, S. E. Corchs, R. D. Rivarola, and L. Gulyás, Phys. Rev. A, 61, 052717 (2000)
Energy (keV) TCS (10^(-16) cm2) 500 7.37 (-1) 750 2.02 (-1)1000 5.96 (-2)1250 2.68 (-2)1500 1.09 (-2)1750 5.24 (-3)2000 3.21 (-3)2250 1.95 (-3)2500 1.03 (-3)2750 7.50 (-4)
Selected examples of
DCS for vibrational excitation of H2 by electron impact
Mazon et al., PRA 64, 042705 (2001)
v=0 → v´=1
v=0 → v´=0
DCS for vibrational excitation of H2 by electron impact
Mazon et al., PRA 64, 042705 (2001)
Differential cross sections for (v=0 --> v´=1) vibrational excitation of H2 by 2.5 eV electron impact
Authors: K T Mazon, R Fujiwara and M.-T. Lee, Phys. Rev A 64,42705 (2001)
Ang(deg) DCS(10^(-16) cm^2/sr)0.2423 6.8263(+0)2.9871 5.0799(+0)5.9481 2.7946(+0)8.9126 1.5272(+0)1.1884 2.2359(+0)1.4922 4.0821(+0)1.7956 5.0301(+0)
Mazon et al., PRA 64, 042705 (2001)
v=0 → v´=3
v=0 → v´=2
DCS for vibrational excitation of H2 by electron impact
Mazon et al., PRA 64, 042705 (2001)
DCS for vibrational excitation of H2 by electron impact
Differential cross sections for (v=0 --> v´=3) vibrational excitation of H2 by 3.5 eV electron impact
Authors: K T Mazon, R Fujiwara and M.-T. Lee, Phys. Rev A 64,42705 (2001)
Ang(deg) DCS(10^(-16) cm^2/sr)0.30009 4.5628(+0)30.252 3.8383(+0)59.505 2.3953(+0)89.453 1.5989(+0)89.453 1.5989(+0)117.54 2.3119(+0)147.64 3.7789(+0)179.65 4.5989(+0)
ICS for electronic excitation of H2 by electron impact
X1Σg+ → b3Σu
+ X1Σg+ → a3Σg
+ X1Σg+ → c3Πu
Machado et al., PRA 63, 032707 (2001)
ICS for electronic excitation of H2 by electron impact
Machado et al., PRA 63, 032707 (2001)
ICS for the X^1\Sigma_g^+ --> b^3\Sigma_u^+ excitation of H2 by electron impact
Authors: A. M. Machado, M. M. Fujimoto, A. M. A. Taveira, L. M. Brescansin and M. -T. Lee, Phys. Rev. A 63. 032707 (2001)
E(eV) ICS(10^-16 cm^2)15.0 1.41(+0) 17.5 1.22(+0)20.0 1.07(+0) 25.1 8.05(-1) 30.2 5.70(-1) 35.3 4.06(-1) 40.0 3.09(-1)
X1Σg+ → b3Σu
+
DCS for electronic excitation of H2 by electron impact
X1Σg+ → b3Σu
+ X1Σg+ → a3Σg
+ X1Σg+ → c3Πu
Machado et al., PRA 63, 032707 (2001)
ICS for vibronic excitation of H2 by electron impact
Lee et al., J. Mol. Struct. (THEOCHEM) 394, 127 (1997)
X1Σg+ (v=0)→ C1Πu (v´=0,1,2,3)
GOS for vibronic bands in the CO molecule
Rocha et al., PRA 57, 4394 (1998)
Fragmentation of water by heavy ions
H Luna and E C Montenegro, PRL 94, 043201 (2005)
Fragmentation of water by heavy ions
H Luna and E C Montenegro, PRL 94, 043201 (2005)
TCS for production of H2O^+ from fragmentation of H2O
by C^(3+) impact
Authors: H Luna and E C Montenegro, Phys Rev Lett 94,043201 (2005)
E(keV/amu) TCS(10^(-18) cm^2)
81.250 4.4789(+2)126.56 3.8451(+2)168.75 1.9859(+2)209.38 1.0141(+2)251.50 1.0986(+2)293.75 1.3944(+2)
Fragmentation of water by heavy ions
H Luna and E C Montenegro, PRL 94, 043201 (2005)
TCS for production of H^+ from water fragmentation induced by the ionization channel, by O^(5+) impact
Authors: H Luna and E C Montenegro, Phys Rev Lett 94, 043201 (2005)
E(keV/amu) TCS(10^(-18) cm^2)
62.680 1.0791(+2)125.37 2.5036(+2)155.22 2.8921(+2)
TCS for e--C2H4 scattering
Brescansin et al., JPB 37, 471 (2004)
TCS for e--C2H4 scattering
Brescansin et al., JPB 37, 471 (2004)
Total cross sections for e^- - C2H4 scattering
Authors: L M Brescansin, P Rawat, I Iga, M G P Homem, M.-T. Lee and L E Machado, J. Phys. B: At Mol Opt Phys 37, 471 (2004)
E(eV) TCS(10^(-16) cm^2)10.137 3.0337(+1)16.569 2.7708(+1)32.340 2.0629(+1)54.321 1.6382(+1)93.768 1.2135(+1)195.94 7.6854(+0)495.65 4.0449(+0)
TACS for e--C2H4 scattering
Brescansin et al., JPB 37, 471 (2004)
Total absorption cross sections for e^- - C2H4 scattering
Authors: L M Brescansin, P Rawat, I Iga, M G P Homem, M.-T. Lee L E Machado, J. Phys. B: At Mol Opt Phys 37, 471 (2004)
E(eV) TACS(10^(-16) cm^2)10.000 1,3333(-1)17.262 1,3333(+0)31.901 3,8667(+0)55.068 5,1556(+0)92.497 5,0667(+0)185.53 3,2889(+0)495.65 1,2889(+0)
Selected examples of
Particle confinement in plasmas
Daltrini and Machida, Rev. Sci. Instrum. 76, 053508 (2005)
ICS for superelastic e--H2 scattering
Sartori et al., PRA 55, 3243 (1997)
Transition rates for molecular excitation Ki→f(T):
•μ : electron-molecule reduced mass•σ : cross section for the i→f transition•f(E) : electron energy distribution function
Sartori et al., PRA 58, 2857 (1998)
Transition rates for electronic excitation of H2
Sartori et al., PRA 58, 2857 (1998)
Electron energy distribution function in an H2 column
Amorim et al., Chem. Phys. 246, 275 (1999)
Fast neutral Li beam as a probe of the edge region in
ETE
Oliveira et al., Rev. Sci. Instrum. 75, 3471 (2004)
BRAMPDAC: present status• More than 1000 electronic data files
prepared, catalogued and stored• Extensive and diversified data in the
area of electron-molecule collisions• Also diversified (not so extensive) data
on electron (ion)-atom collisions and on atomic and molecular spectroscopy
• Still a very small amount of plasma physics data.
BRAMPDAC: near-future developments
• More agressive “in loco” search for spectroscopy and plasma physics data.
• Talks in national meetings on theoretical chemistry and plasma physics to strengthen BRAMPDAC in these areas
• BRAMPDAC on the web: not yet available. A site for BRAMPDAC, to be set as a mirror site of IAEA data basis site, is expected for soon.
Acknowledgments• Evandro M S Ribeiro, Andréa M M
Ribeiro and Maíra Machado, BRAMPDAC´s team
• Centro Universitário Central Paulista, UNICEP, São Carlos, SP, Brazil
• Brazilian agencies CNPq and FAPESP