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EXFOR compilation of thermal neutron scattering data
(Consultants' Meeting, 2 to 4 November 2015, IAEA Headquarters,
Vienna, Austria)
Thermal neutron scattering cross section data are important for calculations of reactor cores and spallation target design, safety and economy. At thermal energies, the scattering is affected by the binding of the scattering nucleus in a solid, liquid, or gas material. The purpose of the meeting is to discuss the key characteristic of the thermal neutron scattering measurement and evaluation techniques to provide guidelines for compilation of such data in the EXFOR data library.
List of participants
Summary Report
INDC(NDS)-0697
Presentations
| # | Author | Title | Link | | 1 | Li (Emily) Liu | Thermal Neutron Scattering Measurements at Spallation Neutron Source | PDF | | 2 | F. Cantargi | Total Neutron Cross Section Measurement for Thermal Scattering Library Evaluation | PDF | | 3 | D.V. Baxter | Compact ADNS as tools for Nuclear Data | PDF | | 4 | E. Farhi | Neutron Cross Sections: Experiments and MD | PDF | | 5 | Y. Kiyanagi | Development of the Thermal Cross Section and its necessity for neutron applications | PDF | | 6 | J.I. Marquez Damian | Experimental Data Needs for Thermal Scattering Library Evaluation | PDF | | 7 | S.P. Simakov | Welcome address | PDF | | 8 | N. Otsuka | Basic Questions on Compilation of Experimental Thermal Neutron Scattering Data | PDF | | 9 | V. Semkova | Objectives of the Meeting | PDF |
Data for Thermal Scattering Law Evaluation TSL research groups
| # | Reference | Material | Temp. [K] | Press. [Mpa] | Quantity | Data | Plot | | 1 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 293 | | Angular cross section | Data | Plot | | 2 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 348 | | Angular cross section | Data | Plot | | 3 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 373 | | Angular cross section | Data | Plot | | 4 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 423 | | Angular cross section | Data | Plot | | 5 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 473 | | Angular cross section | Data | Plot | | 6 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Heavy water | 498 | | Angular cross section | Data | Plot | | 7 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 293 | | Molecular structure factor | Data | Plot | | 8 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 348 | | Molecular structure factor | Data | Plot | | 9 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 373 | | Molecular structure factor | Data | Plot | | 10 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 423 | | Molecular structure factor | Data | Plot | | 11 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 473 | | Molecular structure factor | Data | Plot | | 12 | S.N. Rapeanu et al., Rev. Roum. De Phys., 35, 185 (1990) | Light water | 498 | | Molecular structure factor | Data | Plot | | 13 | A.G. Novikov et al., Jour. Of Struct. Chem., 31, 77 (1990) | Light water | 300 | | Frequency spectrum | Data | Plot | | 14 | A.G. Novikov et al., Jour. Of Struct. Chem., 31, 77 (1990) | Light water | 400 | | Frequency spectrum | Data | Plot | | 15 | A.G. Novikov et al., Jour. Of Struct. Chem., 31, 77 (1990) | Light water | 500 | | Frequency spectrum | Data | Plot | | 16 | A.G. Novikov et al., Jour. Of Struct. Chem., 31, 77 (1990) | Light water | 600 | | Frequency spectrum | Data | Plot | | 17 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 27 | HH Radial distribution function | Data | Plot | | 18 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 27 | OH Radial distribution function | Data | Plot | | 19 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 27 | OO Radial distribution function | Data | Plot | | 20 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 210 | HH Radial distribution function | Data | Plot | | 21 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 210 | OH Radial distribution function | Data | Plot | | 22 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 210 | OO Radial distribution function | Data | Plot | | 23 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 400 | HH Radial distribution function | Data | Plot | | 24 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 400 | OH Radial distribution function | Data | Plot | | 25 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 268 | 400 | OO Radial distribution function | Data | Plot | | 26 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 0.1 | HH Radial distribution function | Data | Plot | | 27 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 0.1 | OH Radial distribution function | Data | Plot | | 28 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 0.1 | OO Radial distribution function | Data | Plot | | 29 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 210 | HH Radial distribution function | Data | Plot | | 30 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 210 | OH Radial distribution function | Data | Plot | | 31 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 298 | 210 | OO Radial distribution function | Data | Plot | | 32 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 10 | HH Radial distribution function | Data | Plot | | 33 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 10 | OH Radial distribution function | Data | Plot | | 34 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 10 | OO Radial distribution function | Data | Plot | | 35 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 190 | HH Radial distribution function | Data | Plot | | 36 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 190 | OH Radial distribution function | Data | Plot | | 37 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 423 | 190 | OO Radial distribution function | Data | Plot | | 38 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | HH Radial distribution function | Data | Plot | | 39 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | OH Radial distribution function | Data | Plot | | 40 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | OO Radial distribution function | Data | Plot | | 41 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | HH Radial distribution function | Data | Plot | | 42 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | OH Radial distribution function | Data | Plot | | 43 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 10 | OO Radial distribution function | Data | Plot | | 44 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 50 | HH Radial distribution function | Data | Plot | | 45 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 50 | OH Radial distribution function | Data | Plot | | 46 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 50 | OO Radial distribution function | Data | Plot | | 47 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 110 | HH Radial distribution function | Data | Plot | | 48 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 110 | OH Radial distribution function | Data | Plot | | 49 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 110 | OO Radial distribution function | Data | Plot | | 50 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 197 | HH Radial distribution function | Data | Plot | | 51 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 197 | OH Radial distribution function | Data | Plot | | 52 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 197 | OO Radial distribution function | Data | Plot | | 53 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 280 | HH Radial distribution function | Data | Plot | | 54 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 280 | OH Radial distribution function | Data | Plot | | 55 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 573 | 280 | OO Radial distribution function | Data | Plot | | 56 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 50 | HH Radial distribution function | Data | Plot | | 57 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 50 | OH Radial distribution function | Data | Plot | | 58 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 50 | OO Radial distribution function | Data | Plot | | 59 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 80 | HH Radial distribution function | Data | Plot | | 60 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 80 | OH Radial distribution function | Data | Plot | | 61 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 80 | OO Radial distribution function | Data | Plot | | 62 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 130 | HH Radial distribution function | Data | Plot | | 63 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 130 | OH Radial distribution function | Data | Plot | | 64 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 130 | OO Radial distribution function | Data | Plot | | 65 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 340 | HH Radial distribution function | Data | Plot | | 66 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 340 | OH Radial distribution function | Data | Plot | | 67 | A.K.Soper, Chem. Phys., 258, 121, (2000) | Light water | 673 | 340 | OO Radial distribution function | Data | Plot | | 68 | M.-C. Bellissent et al., Phys. Rev. E, 51, 4558 (1995) | Light water | 298 | | Frequency spectrum | Data | Plot | | 69 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 293 | | Quasi-elastic width | Data | Plot | | 70 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 285 | | Quasi-elastic width | Data | Plot | | 71 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 278 | | Quasi-elastic width | Data | Plot | | 72 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 268 | | Quasi-elastic width | Data | Plot | | 73 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 263 | | Quasi-elastic width | Data | Plot | | 74 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 261 | | Quasi-elastic width | Data | Plot | | 75 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 258 | | Quasi-elastic width | Data | Plot | | 76 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 256 | | Quasi-elastic width | Data | Plot | | 77 | J. Teixeira et al., Phys. Rev. A 31, 1913 (1985) | Light water | 253 | | Quasi-elastic width | Data | Plot | | 78 | K. Yoshida et al., J. Chem. Phys. 123, 164506 (2005) | Light water | | | Molecular self-diffusion coefficient | Data | | | 79 | K. Yoshida et al., J. Chem. Phys. 123, 164506 (2005) | Heavy water | | | Molecular self-diffusion coefficient | Data | | | 80 | Y.D.Harker,R.M.Brugger, J. Chem. Phys. 46, 2201 (1967) | Methane | 5 | | Frequency spectrum | Data | Plot | | 81 | Y.D.Harker,R.M.Brugger, J. Chem. Phys. 46, 2201 (1967) | Methane | 9.1 | | Frequency spectrum | Data | Plot | | 82 | Y.D.Harker,R.M.Brugger, J. Chem. Phys. 46, 2201 (1967) | Methane | 18 | | Frequency spectrum | Data | Plot | | 83 | Y.D.Harker,R.M.Brugger, J. Chem. Phys. 46, 2201 (1967) | Methane | 22.1 | | Frequency spectrum | Data | Plot | | 84 | E. Farhi et al., J. Of Nucl. Sci. And Tech., 52, 844 (2014) | Light water | 307 | | Frequency spectrum | Data | Plot | | 85 | E. Farhi et al., J. Of Nucl. Sci. And Tech., 52, 844 (2014) | Heavy water | 310 | | Frequency spectrum | Data | Plot | | 86 | L. Bosio et al., Phys. Rev. A 27, 1468 (1983) | Light water | 284.2 | | Structure factor | Data | Plot | | 87 | E.L.Slaggie, J. Of Phys. And Chem. Of Solids, 29, 923 (1968) | Zirconium in ZrH | 0 | | Frequency spectrum | Data | Plot | | 88 | E.L.Slaggie, J. Of Phys. And Chem. Of Solids, 29, 923 (1968) | Hydrogen in ZrH | 0 | | Frequency spectrum | Data | Plot | | 89 | J.U.Koppel,D.H.Houston, Report ENDF-269 | Uranium in UO2 | 0 | | Frequency spectrum | Data | Plot | | 90 | J.U.Koppel,D.H.Houston, Report ENDF-269 | Oxygen in UO2 | 0 | | Frequency spectrum | Data | Plot | | 91 | D.Sprevak,J.U.Koppel, Nukleonik, 12, 87 (1969) | Polyethlyene | 0 | | Frequency spectrum | Data | Plot | | 92 | J.A. Young et al., J. Chem. Phys. 42, 357 (1965) | Graphite | 0 | | Frequency spectrum | Data | Plot | | 93 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 0 | | Frequency spectrum | Data | Plot | | 94 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 600 | | Frequency spectrum | Data | Plot | | 95 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 900 | | Frequency spectrum | Data | Plot | | 96 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 1200 | | Frequency spectrum | Data | Plot | | 97 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 1500 | | Frequency spectrum | Data | Plot | | 98 | I.I. Al-Qasir, PhD Thesis, North Carolina State University (2007) | Graphite | 1800 | | Frequency spectrum | Data | Plot | | 99 | I.I. Al-Qasir et al, Ann. Of Nucl. Ener., 87, 242 (2016) | Beryllium in Beryllium Oxide | 0 | | Frequency spectrum | Data | Plot | | 100 | I.I. Al-Qasir et al, Ann. Of Nucl. Ener., 87, 242 (2016) | Oxygen in Beryllium Oxide | 0 | | Frequency spectrum | Data | Plot | | 101 | I.I. Al-Qasir et al, Ann. Of Nucl. Ener., 87, 242 (2016) | Oxygen in Magnesium Oxide | 0 | | Frequency spectrum | Data | Plot | | 102 | I.I. Al-Qasir et al, Ann. Of Nucl. Ener., 87, 242 (2016) | Magnesium in Magnesium Oxide | 0 | | Frequency spectrum | Data | Plot | | 103 | J.I. Marquez Damian et al., J. Chem. Phys. 139, 024504 (2013) | Light water | 300 | | Frequency spectrum | Data | Plot | | 104 | J.I. Marquez Damian et al., J. Chem. Phys. 139, 024504 (2013) | Light water | 300 | | Frequency spectrum | Data | Plot | | 105 | J.I. Marquez Damian et al., J. Chem. Phys. 139, 024504 (2013) | Heavy water | 300 | | Frequency spectrum | Data | Plot | | 106 | J.I. Marquez Damian et al., J. Chem. Phys. 139, 024504 (2013) | Heavy water | 300 | | Frequency spectrum | Data | Plot | | 107 | M. Utsuro, Jour. Of Nucl. Sci. and Techn., 18, 739 (1981), Japan | Heavy water | 15 | | Total cross section | X4:21751 | | | 108 | M. Utsuro, Jour. Of Nucl. Sci. and Techn., 18, 739 (1981), Japan | Heavy water | 77 | | Total cross section | X4:21751 | | | 109 | F. Kropff, Internal Report | Heavy water | 293 | | Total cross section | X4:30283 | | | 110 | L.J. Rainwater, Physical Review, Vol.73, p.733 (1948), USA | Heavy water | | | Total cross section | X4:11145 | | | 111 | V.W. Meyers, Priv.Comm: Meyers (1953) | Heavy water | | | Total cross section | X4:11019 | | | 112 | S. Dritsa, Priv.Comm: Dritsa (1971) | Heavy water | 295 | | Total cross section | X4:20038 | | | 113 | S. Dritsa, Priv.Comm: Dritsa (1971) | Heavy water | 473 | | Total cross section | X4:20038 | | | 114 | S.B. Herdade, INDC(BZL)-3, p.4 (1971) | Polyethylene | 296 | | Total cross section | X4:30229 | | | 115 | J.R. Granada, Nucl. Instr. Meth. A261, 573 (1987) | Polyethylene | 293 | | Total cross section | X4:30229 | | | 116 | V. Tarina, J.Chemical Physics, 46, 3273 (1967) | Benzene | 77 | | Double Diff. Cross section | X4:30228 | | | 117 | J.V. Lolich, Atomkernenergie, 35, 23 (1980) | Benzene | 296 | | Total cross section | X4:30551 | | | 118 | K. Heinloth, Zeitschrift fuer Physik, 163,218 (1961), | Benzene | 291 | | Total cross section | X4:21341 | | | 119 | L. Torres, Nucl. Instr. Meth. B251, 304 (2006) | Benzene | 90 | | Total cross section | X4:31588 | | | 120 | J.R. Beyster, Nucl. Sci. and Eng., 31, 254 (1968) | Light water | | | Ang. Diff. Cross section | X4:11029 | | | 121 | L. Torres, Nucl. Instr. Meth., B251, 304 (2006) | Light water | 115 | | Total cross section | X4:31588 | | | 122 | S. Dritsa, Report from misc. OECD Countries to EANDC, No.63L (1967), France | Light water | 473 | | Total cross section | X4:22613 | | | 123 | J.L. Russell, Report GA-7581 (1966) | Light water | | | Total cross section | X4:11162 | | | 124 | S.B. Herdade, INDC(BZL)-2, p.22 (1969), Austria | Light water | 296 | | Total cross section | X4:22613 | | | 125 | R.B. Walton, Priv.Comm: Walton (1960) | Light water | | | Total cross section | X4:22613 | | | 126 | V.T. Springer, Nukleonik, 3, 110 (1961) | Light water | | | Total cross section | X4:21078 | |
WPEC Subgroup 42 (SG42) Thermal Scattering Kernel S(a,ß): Measurement, Evaluation and Application
Research groups related to TSL development, and examples of their work.
Argentina
Centro Atomico Bariloche
F. Cantargi
V.H. Gillette (currently at Sharjah University)
J.R. Granada
J.I. Marquez Damian
| # | Materials | Reference | | 1 | Ethanol, deuterated ethanol | http://dx.doi.org/10.1016/S0168-583X(00)00006-9 | | 2 | Teflon | http://dx.doi.org/10.1016/0168-9002(94)01535-X | | 3 | Liquid hydrogen, liquid deuterium | http://dx.doi.org/10.1080/1023816031000100888 | | 4 | Dyphenil, dowtherm-A | http://dx.doi.org/10.1016/0022-3115(91)90370-M | | 5 | PMMA | http://dx.doi.org/10.1016/0306-4549(89)90130-8 | | 6 | PMMA | http://dx.doi.org/10.1016/0306-4549(91)90042-V | | 7 | Polyethylene | http://dx.doi.org/10.1016/0168-9002%2887%2990370-6 | | 8 | Mesitylene, toluene | http://www.sciencedirect.com/science/article/pii/S0168583X08013177 | | 9 | Sapphire, Silicon | http://dx.doi.org/10.1016/j.anucene.2015.01.020 | | 10 | Mesitylene | http://dx.doi.org/10.1016/j.nimb.2006.04.161 | | 11 | Methane, Solid deuterium | http://dx.crossref.org/10.3938/jkps.59.1076 | | 12 | Solice Benzene, water ice | http://dx.doi.org/10.1016/j.nimb.2006.05.027 | | 13 | Aromatic hydrocarbons | http://dx.doi.org/10.1016/j.nimb.2010.04.030 | | 14 | H2O, D2O, Benzene | http://dx.doi.org/10.1103/PhysRevA.36.5594 | | 15 | H2O, D2O | http://dx.doi.org/10.1016/j.anucene.2013.11.014 | | 16 | H2O, D2O | http://link.aip.org/link/doi/10.1063/1.4812828 |
Centro Atomico Ezeiza
R.L. Ramos
China
Northwest Institute of Nuclear Technology
L. Wang
France
CEA Cadarache
G. Noguere
J.P. Scotta
CEA Saclay (not active)
M-C. Bellissent-Funel
Institut Laue-Langevin
Y. Calzavara
E. Farhi
Germany
IKE Suttgart (not active)
W. Bernnat
J. Keinert
M. Mattes
| # | Materials | Reference | | 1 | H2O, D2O, Al, Pb, Be, Bi, liquid 4-He,liquid deuterium, liquid hydrogen | http://dx.doi.org/10.1016/S0921-4526(97)00258-5 | | 2 | H2O, D2O, ZrH | https://www-nds.iaea.org/publications/indc/indc-nds-0470/ | | 3 | Graphite | https://www-nds.iaea.org/publications/indc/indc-nds-0475/ | | 4 | H2O, D2O, graphite, polyethylene | https://www.oecd-nea.org/dbdata/nds_jefreports/jefreport-2.pdf |
Italy
University of Florence
D. Colognesi
E. Guarini
Japan
Kyoto University
Y. Abe
N. Morishima
S. Tasaki
United Arab Emirates
Sharjah University
I.I. Al-Qasir
V.H. Gillette
United States of America
Bettis Atomic Power Laboratory
J. Holmes
M. Zerkle
General Atomics (not active)
J.T. Beyster
J.U. Koppel
J.M. Neill
E.L. Slaggie
D. Sprevak
J.A. Young
Indiana University
D. Baxter
C.Y. Liu
North Carolina State University
I.I. Al-Qasir (currently at Sharjah University)
V.H. Gillette (currently at Sharjah University)
A.I. Hawari
J. Holmes (currently at BAPL)
Rensselaer Polytechnic Institute
Y. Danon
E. Liu
K. Ramic
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Participants