File Dig. Acc. Reference Reference Date Fig./ Category Sub-Category Fuel Oxidizer Diluent / Additive Po To ER % Diluent Comments Identifier Tab. kPa K at190a s_abid91 Abid S. et al. 1991 10 cell size UDMH O2 1.3-5.2 293 1UDMH-4O2 at190b s_abid91 Abid S. et al. 1991 10 cell size UDMH O2 Ar 2-8 293 1UDMH-4O2 50 UDMH - C2N2H8? at190c s_abid91 Abid S. et al. 1991 11 cell size UDMH O2 Ar 4-5.5 293 1UDMH-4O2 75 UDMH-Unsymmetrical Dimethylhydrazine at192f s_abid91 Abid S. et al. 1991 11 cell size UDMH O2 2-5 293 1UDMH-8O2 at192a Y Y s_abid91 Abid S. et al. 1991 11 cell size width CH4 O2 6.5-12 293 1 at192h s_abid91 Abid S. et al. 1991 11 cell size H2 O2 5-20 293 1 at192d s_abid91 Abid S. et al. 1991 11 cell size N2H4 .65-2.5 293 at192e s_abid91 Abid S. et al. 1991 11 cell size C3H8 O2 2.5-11 293 1 at192b Y Y s_abid91 Abid S. et al. 1991 11 cell size width C2H4 O2 1.2-14 293 1 at192c s_abid91 Abid S. et al. 1991 11 cell size N2H4 O2 1.2-13 293 1N2H4-1O2 at192i s_abid91 Abid S. et al. 1991 11 cell size C2H2 O2 1-10 293 1 at26 Y Y g_agaf94 Agafanov and Frolov 1994 1 minimum tube "round, confined" H2 Air 100 298 .4-3.7 at27a Y Y g_agaf94 Agafanov and Frolov 1994 2 minimum tube "round, confined" H2 O2 100 298 .1-4.5 actually Pawel et al. data - don't have this reference at27b Y Y g_agaf94 Agafanov and Frolov 1994 2 minimum tube "round, confined" H2 O2 100 135 .1-4.5 actually Pawel et al. data - don't have this reference at28a Y Y g_agaf94 Agafanov and Frolov 1994 3 minimum tube "round, confined" H2 O2 Ar 100 298 1 80-90 interpolated at28b Y Y g_agaf94 Agafanov and Frolov 1994 3 minimum tube "round, confined" H2 O2 He 100 298 1 70-80 interpolated at28c Y Y g_agaf94 Agafanov and Frolov 1994 3 minimum tube "round, confined" H2 O2 N2 100 298 1 55-75 interpolated at28d Y Y g_agaf94 Agafanov and Frolov 1994 3 minimum tube "round, confined" H2 O2 Ar 100 298 1 90 at28e Y Y g_agaf94 Agafanov and Frolov 1994 3 minimum tube "round, confined" H2 O2 He 100 298 1 86 at195b Y d_bull76 Bull D.C. et al. 1976 2 critical energy "spherical, high explosive" CH4 O2 106 283 1 "mixtures saturated with water, extrapolated" at195c Y Y j_nich79 Nicholls J.A. et al. 1979 5 critical energy "cylindrical, high explosive" CH4 O2 101.3 298 1 "extrapolated, computed from sector data" at195d Y Y m_amin93 Aminallah M. et al. 1993 6 critical energy "cylindrical, exploding wire" CH4 O2 100 293 .7-1.3 at195e Y Y m_amin93 Aminallah M. et al. 1993 6 critical energy "cylindrical, exploding wire" CH4 O2 120 293 .7-1.3 "go, but not no-go" at193a Y Y m_amin93 Aminallah M. et al. 1993 11 cell size length CH4 O2 120 293 0.7-1.3 at193b Y Y m_amin93 Aminallah M. et al. 1993 11 cell size width CH4 O2 120 293 0.7-1.3 at194 m_amin93 Aminallah M. et al. 1993 12 cell size xCH4+(1-x)C3H8 (5-3x)O2 30.4-121.6 293 "x=0, 0.6, 0.8, 0.9, 1" at194a Y Y p_baue85 Bauer P. 1985 cell size length CH4 O2 101.3 293 1 digitized from Aminallah (93) at194b Y Y d_bull82b Bull D. C. et al. 1982 T. 1 cell size length CH4 O2 101.3 293 1 at194c Y Y m_amin93 Aminallah M. et al. 1993 12 cell size length CH4 O2 90-120 293 1 at196 m_amin93 Aminallah M. et al. 1993 8 critical energy exploding wire xCH4+(1-x)C3H8 (5-3x)O2 zN2 20-150 293 "x=0.6, 0.8, 0.95, 1" "z=0, 0.5" at209a Y Y d_desb73 Desbordes D. 1973 critical energy cylindrical CH4 O2 100 293 1 Used by Aminallah at209b Y j_nich79 Nicholls J.A. et al. 1979 ? critical energy "cylindrical, exploding wire?" CH4 O2 293 Used by Aminallah at196a m_amin93 Aminallah M. et al. 1993 8 critical energy exploding wire CH4 O2 60-140 293 1 "cylindrical mode, central and apex ignition" at33a Y Y t_ande92 Andersen T.J. and Dabora E.K. 1992 2 cell size width H2 O2 Ar 26.3-56.7 293 1 55.6 at33b Y Y t_ande92 Andersen T.J. and Dabora E.K. 1992 2 cell size width H2 O2 Ar 26.3-56.7 293 1 50 at33c Y Y t_ande92 Andersen T.J. and Dabora E.K. 1992 2 cell size width H2 O2 Ar 26.3-56.7 293 0.75 50 at30 r_atki80 Atkinson R. et al 1980 3 critical energy high explosive H2 Air 101.3 293 0.6 - 1.7 at90b g_bach71 Bach G.G. et al. 1971 8 cell size C2H2 O2 1.2-30.4 293 "1.35, 1.75?" ER=2.5!? at89a g_bach71 Bach G.G. et al. 1971 2 critical energy exploding wire C2H2 O2 4-16 293 1 electric spark at58a Y Y h_bart74 Barthel H.O. 1974 4 cell size width H2 O2 6.7-53.3 298 1 at58b Y Y h_bart74 Barthel H.O. 1974 4 cell size width H2 O2 Ar 6.7-53.3 298 1 40 at58c Y Y h_bart74 Barthel H.O. 1974 4 cell size width H2 O2 Ar 6.7-53.3 298 1 70 at59 h_bart74 Barthel H.O. 1974 5 cell size H2 O2 Ar 26.7 298 1 20 - 85 at161a Y Y p_baue84 Bauer P. 1984 5 critical tube CH4 O2 N2 400-2200 293 1.08 31.9 at161b Y Y p_baue84 Bauer P. 1984 5 critical tube CH4 O2 N2 200-1200 293 1.09 54.9 at161c Y Y p_baue84 Bauer P. 1984 5 critical tube CH4 O2 N2 200-1100 293 1.15 64.3 at161d Y Y p_baue84 Bauer P. 1984 5 critical tube CH4 O2 N2 500-1900 293 1.09 67.7 at162a Y Y p_baue84 Bauer P. 1984 3 critical tube C2H4 O2 N2 350-880 293 3 71.4 check these against the reference at162b Y Y p_baue84 Bauer P. 1984 3 critical tube C2H4 O2 N2 150-600 293 3 67.2 check these against the reference at162c Y Y p_baue84 Bauer P. 1984 3 critical tube C2H4 O2 N2 100-400 293 3 60.1 check these against the reference at163a Y Y p_baue84 Bauer P. 1984 4 critical tube C2H4 O2 N2 100 293 1.05 69-79 at163c Y p_baue84 Bauer P. 1984 4 critical tube C2H4 O2 N2 100 293 1.5 60-72 use at66c mk1a Y Y p_baue86 Bauer P. et al. 1986 4 cell size length C3H8 Air 270-4600 1.13 mk1b Y Y p_baue86 Bauer P. et al. 1986 4 cell size length C3H8 Air 270-900 1.31 mk1c Y Y p_baue86 Bauer P. et al. 1986 4 cell size length C3H8 Air 1000-4500 1.41 mk1d Y Y p_baue86 Bauer P. et al. 1986 4 cell size length C3H8 Air 5300 1.61 mk3a Y Y p_baue86 Bauer P. et al. 1986 5 cell size length C2H4 Air 300-1000 0.8 mk3b Y Y p_baue86 Bauer P. et al. 1986 5 cell size length C2H4 Air 150-900 1.13 mk3c Y Y p_baue86 Bauer P. et al. 1986 5 cell size length C2H4 Air 300-1000 1.13 mk3d Y Y p_baue86 Bauer P. et al. 1986 5 cell size length C2H4 Air 200-1100 1.61 mk4a Y Y p_baue86 Bauer P. et al. 1986 8 cell size length C2H4 O2 N2 50-200 1.01 42.3 mk4b Y Y p_baue86 Bauer P. et al. 1986 8 cell size length C2H4 O2 N2 70-400 1.05 72.2 mk4c Y Y p_baue86 Bauer P. et al. 1986 8 cell size length C2H4 O2 N2 150-600 1.05 75.2 mk4d Y Y p_baue86 Bauer P. et al. 1986 8 cell size length C2H4 O2 N2 350-900 1.05 78.7 mk5a Y Y p_baue86 Bauer P. et al. 1986 9 cell size length CH4 O2 N2 50-230 293 1.08 31.9 mk5b Y Y p_baue86 Bauer P. et al. 1986 9 cell size length CH4 O2 N2 300-700 293 1.09 55.0 mk5c Y Y p_baue86 Bauer P. et al. 1986 9 cell size length CH4 O2 N2 650-1100 293 1.15 64.2 h_bees91 Beeson H.D. et al. 1991 cell size C6H14 Air 101.3 293 "1, 1.5" h_bees91 Beeson H.D. et al. 1991 cell size C6H14 O2 N2 101.3 293 "1, 1.5" 47.5-70 at176a Y Y h_bees91 Beeson H.D. et al. 1991 7a cell size width CH4 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 cell size C3H8 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 cell size JP4 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 cell size JP4 Air N2 101.3 293 "1, 1.5" ? at177a Y Y h_bees91 Beeson H.D. et al. 1991 7b critical energy spherical CH4 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 critical energy C3H8 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 critical energy C6H14 Air 101.3 293 1 h_bees91 Beeson H.D. et al. 1991 critical energy JP4 Air 101.3 293 1 w_bene84 Benedick W.B. et al. 1984 cell size H2 Air 101.3 293 0.54 - 1.015 at19 Y Y w_bene84 Benedick W.B. et al. 1984 2 cell size width H2 Air 82.7 293 .5-.7 at34b Y Y w_bene86 Benedick W.B. et al. 1986 T2 critical energy "spherical, high explosive" H2 Air 83.99 293 0.48-3.4 at34c Y Y w_bene86 Benedick W.B. et al. 1986 T1 critical energy "spherical, high explosive" H2 Air 101.3 293 0.5-3.1 Elsworth data at84a Y Y w_bene86 Benedick W.B. et al. 1986 2 critical energy "spherical, high explosive" C2H4 Air 101.3 293 .6-3.0 w_bene70 Benedick W.B. et al. 1970 critical energy high explosive C4H10 Air 101.3 293 initiation by 800 g of sheet explosive w_bene70 Benedick W.B. et al. 1970 critical energy high explosive C3H8 Air 101.3 293 initiation by 800 g of sheet explosive w_bene70 Benedick W.B. et al. 1970 critical energy high explosive C3H6 Air 101.3 293 initiation by 800 g of sheet explosive w_bene70 Benedick W.B. et al. 1970 critical energy high explosive MAPP Air 101.3 293 initiation by 800 g of sheet explosive att1 Y a_bori91a Borisov A.A. 1991 1 minimum tube? unconfined? CH4 O2 101.3 293 1 Borisov A.A. 1991 critical tube C2H6 O2 101.3 293 1 Borisov A.A. 1991 critical tube C3H8 O2 101.3 293 1 Borisov A.A. 1991 critical tube C2H4 O2 101.3 293 1 Borisov A.A. 1991 critical tube C2H2 O2 101.3 293 1 Borisov A.A. 1991 critical tube C2H2 Air 101.3 293 1 Borisov A.A. 1991 critical cloud diameter? C3H8 O2 101.3 293 0.6-2 Borisov A.A. 1991 critical energy C3H8 Air 101.3 293 0.75-1.75 initiation by condensed explosive or by gaseous charges a_bori93 Borisov A.A. et al. 1993 cell size H2 Air C2F4Br2 101.3 293 1 0 - 8.63 a_bori93 Borisov A.A. et al. 1993 cell size C3H8 Air C2F4Br2 101.3 293 1 0 - 3.88 a_bori93 Borisov A.A. et al. 1993 initiation energy? C7H16 Air C2F4Br2 101.3 293 1.34 "0, 0.93, 1.39" Initiation of plane detonation in tube Borisov A.A. et al. 1991 critical energy H2 Air 101.3 293 1 spherical and plane mode Borisov A.A. et al. 1991 critical energy C2H2 Air 101.3 293 1 spherical mode Borisov A.A. et al. 1991 critical energy C2H4 Air 101.3 293 1 spherical and plane mode Borisov A.A. et al. 1991 critical energy C2H6 Air 101.3 293 1 spherical and plane mode Borisov A.A. et al. 1991 critical energy C3H8 Air 101.3 293 1 spherical and plane mode at210a Y Y d_bull76 Bull D.C. 1976 4 critical energy "spherical, high explosive" CH4 O2 N2 101.3 293 1 33-67 "interpolated, water saturated" at210b Y Y s_koga65 Kogarko S.M. et al. 1965 T. 2 critical energy "spherical, high explosive" CH4 O2 N2 101.3 1 71 d_bull82a Bull D.C. 1982 critical energy high explosive CH4 O2 N2 101.3 293 1 33-67 d_bull82a Bull D.C. 1982 critical energy high explosive CH4 Air 101.3 293 1 at92 Y Y d_bull82a Bull D.C. 1982 5 critical energy "spherical, high explosive" C2H6 Air 101.3 293 1 d_bull82a Bull D.C. 1982 critical energy high explosive C3H8 Air 101.3 293 1 d_bull82a Bull D.C. 1982 critical energy high explosive C4H10 Air 101.3 293 1 d_bull82a Bull D.C. 1982 critical energy high explosive iso-Butane Air 101.3 293 1 at32b Y Y s_murr81 Murray S.B. et al. 1981 12 critical energy high explosive C2H4 Air 101.3 293 1 used by and digitized from Knystautas; should be redone at108a Y Y h_frei62 Freiwald H. and Koch H. W. 1962 7 critical energy high explosive C2H2 Air 101.3 293 .7-4.1 not really data mk30 Y Y r_atki80 Atkinson R. et al. 1980 3 critical energy "spherical, high explosive" H2 Air 101.3 293 .95-1.5 d_bull82a Bull D.C. 1982 critical energy high explosive H2 Air 101.3 293 1 at93a Y Y d_bull82a Bull D.C. 1982 4 cell size length C2H6 O2 N2 33.8 293 0.5-2 planar mode at93b Y Y d_bull82a Bull D.C. 1982 4 cell size length C2H6 O2 N2 67.5 293 0.5-2 spherical mode d_bull82a Bull D.C. 1982 critical energy high explosive C2H6 Air 101.3 293 0.8-1.7 d_bull82a Bull D.C. 1982 critical energy high explosive CH4 O2 N2 101.3 293 1 33-65 d_bull82a Bull D.C. 1982 CH4 Air 101.3 293 1 d_bull82a Bull D.C. 1982 C2H6 Air 101.3 293 1 d_bull82a Bull D.C. 1982 C3H8 Air 101.3 293 1 d_bull82a Bull D.C. 1982 C4H10 Air 101.3 293 1 d_bull82a Bull D.C. 1982 iso-Butane Air 101.3 293 1 at109a Y Y d_bull78 Bull D.C. 1978 T. 1 critical energy "spherical, high explosive" C2H4 Air 101.3 293 1 at109b Y Y d_bull79a Bull D.C. 1979 4 critical energy "spherical, high explosive" C2H4 Air 101.3 293 0.8 Pfortner private communication at109c Y Y t_hiki75 Hikita T. et al. 1975 critical energy "spherical, high explosive" C2H4 Air 101.3 293 1.2 "digitized from Bull (79), d_bull79a" at108b Y Y s_koga65 Kogarko S.M. et al. 1965 T. 2 critical energy "spherical, high explosive" C2H2 Air 101.3 293 1 at143b Y d_bull82b Bull D.C. 1982 T. 2 critical tube C2H6 Air 100 1 used by Knystautas et al. (1982) d_bull82a Bull D.C. 1982 H2 Air 101.3 293 1 d_bull82a Bull D.C. 1982 C2H6 Air 101.3 293 0.8-1.7 d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" C2H6 Air 101.3 293 1 spherical mode d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" C3H8 Air 101.3 293 1 spherical mode d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" C4H10 Air 101.3 293 1 spherical mode d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" CH4 Air 101.3 293 1 spherical mode d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" CH4+C2H6 Air 101.3 293 1 "spherical mode, 0-100% C2H6 in mixture" d_bull78 Bull D.C. et al 1978 critical energy "spherical, high explosive" C2H6 Air 101.3 293 0.7 - 1.7 mk2 Y Y d_bull82b Bull D.C. et al. 1982 5 cell size length H2 Air 8.1 - 101.3 293 1 d_bull82b Bull D.C. et al. 1982 cell size H2 O2 0.05 - 0.3 293 1 d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" CH4 Air 101.3 293 1 Tetryl initiator charge weight d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" C2H6 Air 101.3 293 1 Tetryl initiator charge weight d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" C3H8 Air 101.3 293 1 Tetryl initiator charge weight d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" C4H10 Air 101.3 293 1 Tetryl initiator charge weight d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" isobutane Air 101.3 293 1 Tetryl initiator charge weight d_bull78 Bull D.C. et al. 1978 critical energy "spherical, high explosive" C2H4 Air 101.3 293 1 Tetryl initiator charge weight at139a Y Y d_bull82b Bull D.C. et al. 1982 4 cell size length C2H6 O2 3-30 293 1 d_bull82b Bull D.C. et al. 1982 cell size C2H6 O2 3-30 293 1 at157j Y Y d_bull82b Bull D.C. et al. 1982 T. 2 cell size width C2H6 Air 101.3 293 1 at139e Y Y d_bull82b Bull D.C. et al. 1982 4 cell size length C2H6 Air 60.8-101.3 293 1 used by Moen et al. (84) at139b Y Y d_bull82b Bull D.C. et al. 1982 4 cell size length C2H6 O2 N2 10-40.5 293 1 44 at139c Y Y d_bull82b Bull D.C. et al. 1982 4 cell size length C2H6 O2 N2 10-40.5 293 1 61 at139d Y Y d_bull82b Bull D.C. et al. 1982 4 cell size length C2H6 O2 N2 40.5 293 1 70 at140a Y Y d_bull82b Bull D.C. et al. 1982 3 cell size length C2H2 Air 8.1-101.3 293 1 at140b Y Y d_bull82b Bull D.C. et al. 1982 3 cell size length C2H4 Air 30.4-101.3 293 1 d_bull82b Bull D.C. et al. 1982 cell size C3H8 Air 40.5-101.3 293 1 d_bull82b Bull D.C. et al. 1982 cell size C4H10 Air 40.5 293 1 d_bull82b Bull D.C. et al. 1982 cell size C2H2 Air 101.3 293 1 cell size vs. mass of Tetryl charge required to detonate d_bull82b Bull D.C. et al. 1982 cell size H2 Air 101.3 293 1 cell size vs. mass of Tetryl charge required to detonate d_bull82b Bull D.C. et al. 1982 cell size C2H4 Air 101.3 293 1 cell size vs. mass of Tetryl charge required to detonate d_bull82b Bull D.C. et al. 1982 cell size C2H6 Air 101.3 293 1 cell size vs. mass of Tetryl charge required to detonate d_bull82b Bull D.C. et al. 1982 cell size C3H8 Air 101.3 293 1 cell size vs. mass of Tetryl charge required to detonate d_bull82b Bull D.C. et al. 1982 cell size C2H6 O2 N2 33.4 293 0.5 - 2 44 planar mode d_bull82b Bull D.C. et al. 1982 cell size C2H6 O2 N2 66.8 293 0.4 - 2.1 44 spherical mode d_bull82b Bull D.C. et al. 1982 minimum tube round H2 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 minimum tube? round? CH4 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? C2H2 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? C2H4 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? C2H6 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? C3H8 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? C4H10 Air 101.3 293 1 cell size/2 d_bull82b Bull D.C. et al. 1982 minimum tube? round? isobutane Air 101.3 293 1 cell size/2 at72b Y d_bull82b Bull D.C. et al. 1982 critical tube round H2 Air 101.3 293 1 used by Knystautas d_bull82b Bull D.C. et al. 1982 critical tube? round CH4 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 critical tube? round C2H2 Air 101.3 293 1 at157e Y Y d_bull82b Bull D.C. et al. 1982 T. 2 cell size width C2H4 Air 101.3 293 1 used by Moen et al. (84) d_bull82b Bull D.C. et al. 1982 critical tube round C2H6 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 critical tube? round C3H8 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 critical tube? round C4H10 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 critical tube? round isobutane Air 101.3 293 1 at157l Y Y d_bull82b Bull D.C. et al. 1982 T. 2 cell size width C2H2 Air 101.3 293 1 d_bull82b Bull D.C. et al. 1982 cell size C2H6 Air 101.3 293 1 relative to H2-Air d_bull82b Bull D.C. et al. 1982 cell size C2H4 Air 101.3 293 1 relative to H2-Air at157m Y Y d_bull82b Bull D.C. et al. 1982 T. 2 cell size width C3H8 Air 101.3 293 1 relative to H2-Air d_bull82b Bull D.C. et al. 1982 cell size C4H10 Air 101.3 293 1 relative to H2-Air d_bull82b Bull D.C. et al. 1982 cell size isobutane Air 101.3 293 1 relative to H2-Air g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Acetaldehyde O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" C2H2 O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Carbon disulfide O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Cyclopropane O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Diethyl ether O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" C2H6 O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" C2H4 O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Ethylene oxide O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Ethyl nitrite O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Methylacetylene O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Methyl vinyl ether O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Propadiene O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" C3H8 O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" C3H6 O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, high explosive?" Vinyl fluoride O2 101.3 293 "400 J high explosive initiation, spherical mode" g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" C2H2 O2 101.3 293 1.4 exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Ethyl nitrite O2 101.3 293 31 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Propadiene O2 101.3 293 28.6 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Methylacetylene O2 101.3 293 28.6 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Ethylene oxide O2 101.3 293 40 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Methyl vinyl ether O2 101.3 293 28.6 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Cyclopropane O2 101.3 293 25 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" C2H4 O2 101.3 293 1.32 exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Vinyl fluoride O2 101.3 293 40 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" C3H6 O2 101.3 293 25 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Diethyl ether O2 101.3 293 20 (vol. %) exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" C3H8 O2 101.3 293 1.33 exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" C2H6 O2 101.3 293 1.29 exploding wire initiation g_carl73 Carlson G.A. 1973 critical energy "spherical, exploding wire?" Acetaldehyde O2 101.3 293 40 (vol. %) exploding wire initiation at14 Y Y g_cicc94 Ciccarelli et al. 1994 2 cell size width H2 Air 100 300 .5-3.3 at15 Y Y g_cicc94 Ciccarelli et al. 1994 3 cell size width H2 Air 100 500 .35-2.4 at16 Y Y g_cicc94 Ciccarelli et al. 1994 4 cell size width H2 Air 100 650 .26-2.4 g_cicc94 Ciccarelli et al. 1994 cell size H2 Air 100 300 "0.59, 1.01, 1.69" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air 100 500 "0.59, 1.01, 1.69" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air 100 650 "0.59, 1.01, 1.69" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air steam 100 375 1 "10, 11, 20, 30" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air steam 100 400 1 "10, 11, 20, 30" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air steam 100 500 1 "10, 11, 20, 30" g_cicc94 Ciccarelli et al. 1994 cell size H2 Air steam 100 650 1 "10, 11, 20, 30" mk9a Y Y y_deni60 Denisov Yu.N. and Troshin Ya.K. 1960 6a1 cell size width C2H2 O2 12-120 293 1 mk9b Y Y y_deni60 Denisov Yu.N. and Troshin Ya.K. 1960 6a4 cell size width H2 O2 4-120 293 1 at198d Y Y d_desb93 Desbordes et al. 1993 3 cell size width C2H2 O2 13.3 293 1 d_desb86a Desbordes D. 1986 critical energy C2H2 O2 "4, 4.7, 5.3" 293 1 hemispherical or spherical mode d_desb86a Desbordes D. 1986 critical energy C2H2 O2 Ar 13.3 293 1 50 hemispherical mode at187a Y Y d_desb88 Desbordes D. 1988 2 cell size width C2H2 O2 2.5-18.2 293 1 at187b Y Y d_desb88 Desbordes D. 1988 2 cell size width C2H2 O2 Ar 4.1-13.2 293 1 22.2 at187c Y Y d_desb88 Desbordes D. 1988 2 cell size width C2H2 O2 Ar 4.1-45.6 293 1 50 at187d Y Y d_desb88 Desbordes D. 1988 2 cell size width C2H2 O2 Ar 0.1-0.4 293 1 75 d_desb88 Desbordes D. 1988 critical tube round C2H2 O2 4-10.7 293 1 d_desb88 Desbordes D. 1988 critical tube round C2H2 O2 Ar 10.7-25.3 293 1 50 d_desb88 Desbordes D. 1988 critical tube round C2H2 O2 Ar 290 293 1 75 at166c d_desb86b Desbordes D. and Vachon M. 1986 2 cell size width C2H2 O2 2.5-16.2 293 1 these data reproduced and extended in Desbordes (88) at166b Y Y d_desb86b Desbordes D. and Vachon M. 1986 2 cell size width C2H2 O2 4.1-12.2 293 1 "actually Coulonnier data, but the reference is missing!" d_desb93 Desbordes D. et al. 1993 critical energy high explosive C2H2 O2 101.3 293 1 initiation by exploding wire d_desb93 Desbordes D. et al. 1993 critical energy high explosive C2H2 O2 He 101.3 293 1 75 initiation by exploding wire d_desb93 Desbordes D. et al. 1993 critical energy high explosive C2H2 O2 Ar 101.3 293 1 75 initiation by exploding wire d_desb93 Desbordes D. et al. 1993 critical energy high explosive C2H2 O2 Kr 101.3 293 1 75 initiation by exploding wire d_desb93 Desbordes D. et al. 1993 critical tube round C2H2 O2 293 1 transmission of plane detonation; dc=52 mm d_desb93 Desbordes D. et al. 1993 critical tube round C2H2 O2 "He, Kr" 293 1 "75, 81" transmission of plane detonation; dc=52 mm d_desb93 Desbordes D. et al. 1993 critical tube round C2H2 O2 Ar 293 1 "50, 75, 81" transmission of plane detonation; dc=52 mm at197a Y Y d_desb93 Desbordes D. et al. 1993 2 cell size width C2H2 O2 He 0.13-1 293 1 75 at197b Y Y d_desb93 Desbordes D. et al. 1993 2 cell size width C2H2 O2 Ar 0.13-1 293 1 75 at197c Y Y d_desb93 Desbordes D. et al. 1993 2 cell size width C2H2 O2 Kr 0.13-1 293 1 75 at198a Y Y d_desb93 Desbordes D. et al. 1993 3 cell size width C2H2 O2 He 0.13-1 293 1 81 at198b Y Y d_desb93 Desbordes D. et al. 1993 3 cell size width C2H2 O2 Ar 0.13-1 293 1 81 at198c Y Y d_desb93 Desbordes D. et al. 1993 3 cell size width C2H2 O2 Kr 0.13-1 293 1 81 d_edwa76 Edwards D.H. et al. 1976 cell size C3H8 O2 N2 101.3 293 1 0 - 16 at166a Y Y d_edwa78 Edwards D.H. et al. 1978 12 cell size width C2H2 O2 2-9.3 293 1 0 cells of a spherical wave d_edwa76 Edwards D.H. et al. 1976 critical energy "spherical, high explosive" C3H8 O2 N2 101.3 293 1 0 - 19 critical explosive charge weight d_edwa76 Edwards D.H. et al. 1976 critical energy "spherical, high explosive" C2H2 O2 N2 101.3 293 0.8 0 - 75 at32e Y Y r_knys84 Knystautas R. et al. 1984 3 critical energy "spherical, high explosive" C2H6 O2 N2 67.4 293 0.5-2.2 38-47 Elsworth data - can't find original source H2-Air1 Y Y c_guir82 Guirao C.H. et al. 1982 2 cell size width H2 Air 101.3 293 0.54 - 2.03 mk23a Y Y c_guir82 Guirao C.H. et al. 1982 3 critical tube H2 Air 101.3 293 0.85-1.86 Sandia data mk23b Y Y c_guir82 Guirao C.H. et al. 1982 3 critical tube H2 Air 101.3 293 0.85-1.86 McGill data at24 Y Y c_guir82 Guirao C.H. et al. 1982 4 critical energy "spherical, high explosive" H2 Air 101.3 293 0.85-1.86 at181a Y Y r_knys88 Knystautas R. and Lee J.H. 1988 8 critical energy "spherical, spark" H2 Cl2 8 293 1 at181b Y Y r_knys88 Knystautas R. and Lee J.H. 1988 8 critical energy "spherical, spark" H2 Cl2 16 293 1 at182a Y Y r_knys88 Knystautas R. and Lee J.H. 1988 7 cell size width H2 Cl2 2.1-24.0 293 0.56 at182b Y Y r_knys88 Knystautas R. and Lee J.H. 1988 7 cell size width H2 Cl2 2.1-24.0 293 0.67 at182c Y Y r_knys88 Knystautas R. and Lee J.H. 1988 7 cell size width H2 Cl2 2.1-24.0 293 1.5 at182d Y Y r_knys88 Knystautas R. and Lee J.H. 1988 7 cell size width H2 Cl2 2.1-24.0 293 1 r_knys88 Knystautas R. and Lee J.H. 1988 critical tube H2 Cl2 11.2 293 0.67 r_knys88 Knystautas R. and Lee J.H. 1988 critical tube H2 Cl2 7.7 293 1 r_knys88 Knystautas R. and Lee J.H. 1988 critical tube H2 Cl2 101.3 293 1.5 r_knys84 Knystautas R. et al. 1984 cell size H2 Air 101.3 293 0.4 - 3.6 at13a Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width CH4 Air 101.3 293 1 at13f Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width C4H10 Air 101.3 293 0.7 - 1.5 at13e Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width C3H8 Air 101.3 293 0.6 - 1.7 at13d Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width C2H6 Air 101.3 293 0.8 - 1.3 see also Moen 1984 data at13b Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width C2H4 Air 101.3 293 0.5 - 2.2 js13c Y Y r_knys84 Knystautas R. et al. 1984 1 cell size width C2H2 Air 101.3 293 0.4 - 3 mk7a Y Y r_knys82 Knystautas R. et al. 1982 T. 2 cell size width C2H2 O2 N2 101.3 293 1 64-75 mk7b Y Y r_knys82 Knystautas R. et al. 1982 T.2 cell size width H2 O2 N2 101.3 293 1 31 - 56 mk7c Y Y r_knys82 Knystautas R. et al. 1982 T.2 cell size width C2H4 O2 N2 101.3 293 1 51 - 74 mk7d Y Y r_knys82 Knystautas R. et al. 1982 T.2 cell size width C3H8 O2 N2 101.3 293 1 44 - 76 at71a Y Y r_knys82 Knystautas R. et al. 1982 2 critical tube C2H2 O2 N2 101.3 293 1 64 - 75 at72a Y Y r_knys82 Knystautas R. et al. 1982 3 critical tube H2 O2 N2 101.3 293 1 31 - 56 mk142a Y Y r_knys82 Knystautas R. et al. 1982 4 critical tube C2H4 O2 N2 101.3 293 1 51 - 65 r_knys82 Knystautas R. et al. 1982 critical tube C3H8 O2 N2 101.3 293 1 44 - 64 at143a Y Y r_knys82 Knystautas R. et al. 1982 5 critical tube C2H6 O2 N2 101.3 293 1 16 - 64 r_knys82 Knystautas R. et al. 1982 critical tube C3H6 O2 N2 101.3 293 1 0 - 63 r_knys82 Knystautas R. et al. 1982 critical tube C4H10 O2 N2 101.3 293 1 0 - 68 at147a Y Y r_knys82 Knystautas R. et al. 1982 9 critical tube CH4 O2 N2 101.3 293 1 36.2 at147b Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube CH4 O2 101.3 293 1.3 0 at147c Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube CH4 O2 N2 101.3 293 1.3 23 at147d Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube CH4 O2 N2 101.3 293 1.3 50 r_knys82 Knystautas R. et al. 1982 critical tube MAPP O2 N2 101.3 293 O2/F=4.55 11 - 67 at149a Y Y r_knys82 Knystautas R. et al. 1982 13 cell size width C2H4 O2 1.3-13.3 293 1 at148a Y Y r_knys82 Knystautas R. et al. 1982 10 cell size width C2H2 O2 1.3-13.3 293 1 presented as critical tube data r_knys82 Knystautas R. et al. 1982 critical tube H2 Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube C2H4O Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube C2H4 Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube MAPP Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube C2H6 Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube C3H6 Air 101.3 293 1 r_knys82 Knystautas R. et al. 1982 critical tube C3H8 Air 101.3 293 1 at154b Y Y r_knys82 Knystautas R. et al. 1982 16 cell size width C4H10 Air 6.7-13.3 293 1 presented as critical tube data at150a Y Y r_knys82 Knystautas R. et al. 1982 11 cell size width C2H2 O2 2-12 293 2.5 presented as critical tube data at150b Y Y r_knys82 Knystautas R. et al. 1982 11 cell size width C2H2 O2 2-12 293 2.5 Murray private communication data at151 Y Y r_knys82 Knystautas R. et al. 1982 12 cell size width C2H2 O2 2.7-13.3 293 0.625 presented as critical tube data at152 Y Y r_knys82 Knystautas R. et al. 1982 14 cell size width C2H6 O2 4-13.3 293 1 at153 Y Y r_knys82 Knystautas R. et al. 1982 15 cell size width C3H6 O2 4-12 293 1 presented as critical tube data at154a Y Y r_knys82 Knystautas R. et al. 1982 16 cell size width C3H8 O2 2.7-13.3 293 1 presented as critical tube data at73 Y Y r_knys82 Knystautas R. et al. 1982 17 cell size width CH4 O2 8-13.3 293 1 presented as critical tube data at74 Y Y r_knys82 Knystautas R. et al. 1982 18 cell size width H2 O2 5.3-20 293 1 presented as critical tube data r_knys84 Knystautas R. et al. 1984 minimum tube C2H2 Air 101.3 293 0.4-3.2 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 minimum tube H2 Air 101.3 293 0.4-3.7 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 minimum tube C2H4 Air 101.3 293 0.5-2.25 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 minimum tube C4H10 Air 101.3 293 0.6-1.7 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 minimum tube C3H8 Air 101.3 293 0.6-1.7 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 minimum tube C2H6 Air 101.3 293 0.6-1.7 minimum limiting tube diameter for stable propagation in tube r_knys84 Knystautas R. et al. 1984 critical tube C2H2 Air 101.3 293 0.5-1 r_knys84 Knystautas R. et al. 1984 critical tube H2 Air 101.3 293 0.5-3 at31c Y Y a_rinn82 Rinnan A. 1982 3 critical tube C2H4 Air 101.3 293 0.6-.78 r_knys84 Knystautas R. et al. 1984 critical tube C3H8 Air 101.3 293 "0.8, 1.1" r_knys84 Knystautas R. et al. 1984 critical tube C2H6 Air 101.3 293 "1, 1.2" r_knys84 Knystautas R. et al. 1984 critical energy high explosive H2 Air 101.3 293 0.5-2.5 Elsworth's data r_knys84 Knystautas R. et al. 1984 critical energy high explosive C2H4 Air 101.3 293 0.6-2.2 Elsworth's data at32f Y Y j_elsw84 Elsworth J.E. 1984 critical energy "spherical, high explosive" C3H8 Air 101.3 293 0.7-1.75 used by Knystautas (84) at32g Y Y j_elsw84 Elsworth J.E. 1984 critical energy "spherical, high explosive" C4H10 Air 101.3 293 0.7-2 used by Knystautas (84) at35a Y Y r_kuma90 Kumar R.K. 1990 9 cell size width H2 O2 He 106.6 293 1 25-85 at35b Y Y r_kuma90 Kumar R.K. 1990 9 cell size width H2 O2 Ar 106.6 293 1 25-85 at37 Y Y r_kuma90 Kumar R.K. 1990 12 cell size width Deuterium O2 He 106.6 293 1 25-85 at38a Y Y r_kuma90 Kumar R.K. 1990 6 cell size width H2 O2 He and CO2 106.6 295 1 30-55 at38b Y Y r_kuma90 Kumar R.K. 1990 6 cell size width H2 O2 He and CO2 106.6 295 1 40-65 at38c Y Y r_kuma90 Kumar R.K. 1990 6 cell size width H2 O2 He and CO2 106.6 295 1 35-70 at39a Y Y r_kuma90 Kumar R.K. 1990 7 cell size width H2 O2 He and H2O 106.6 353 1 5-70 at39b Y Y r_kuma90 Kumar R.K. 1990 7 cell size width H2 O2 He and H2O 106.6 353 1 5-70 at39c Y Y r_kuma90 Kumar R.K. 1990 7 cell size width H2 O2 He and H2O 106.6 353 1 5-70 at39d Y Y r_kuma90 Kumar R.K. 1990 7 cell size width H2 O2 He and H2O 106.6 353 1 5-70 at41 Y r_kuma90 Kumar R.K. 1990 4 cell size H2 O2 He 106.6 295 1 25-85 r_kuma90 Kumar R.K. 1990 cell size H2 O2 He 106.6 333 1 25-85 r_kuma90 Kumar R.K. 1990 cell size H2 O2 He 106.6 353 1 25-85 r_kuma90 Kumar R.K. 1990 cell size H2 O2 He 106.6 373 1 25-85 at42a Y Y r_kuma90 Kumar R.K. 1990 5 cell size width H2 O2 He 20-150 295 1 55 at42b Y Y r_kuma90 Kumar R.K. 1990 5 cell size width H2 O2 He 20-150 295 1 70 at199a Y Y s_labe93 Laberge S. et al. 1993 3 cell size width CH4 O2 8-26.7 293 1 at199c Y Y s_labe93 Laberge S. et al. 1993 3 cell size width C2H2 O2 1.3-13.3 293 1 presented as critical tube data at199d Y Y s_labe93 Laberge S. et al. 1993 3 cell size width C2H2 O2 1.3-13.3 293 2.5 presented as critical tube data j_lee77 Lee J.H. and Matsui H. 1977 critical energy C2H2 O2 "6.7, 13.3, 20, 26.7, 107" 293 0.35 - 2.1 exploding wire and spark j_lee77 Lee J.H. and Matsui H. 1977 critical energy C2H2 O2 4-107 293 1 "exploding wire, spark, laser, linear detonation" j_lee76 Lee J.H. and Ramamurti K. 1976 critical energy C2H2 O2 6.1-40.5 293 1 j_lee76 Lee J.H. and Ramamurti K. 1976 critical energy H2 O2 15.2-60.8 293 1 j_lee69 Lee J.H. et al. 1969 critical energy C2H2 O2 13.3 293 1.75 j_lee69 Lee J.H. et al. 1969 critical energy C2H2 O2 0.67-13.3 293 "1, 1.75" j_lee82 Lee J.H. et al. 1982 critical charge high explosive H2 Air 101.3 293 0.57-1.86 j_lee82 Lee J.H. et al. 1982 critical tube C3H8 O2 101.3 293 1 j_lee82 Lee J.H. et al. 1982 critical tube C3H8 O2 N2 101.3 293 1 17-64 j_lee82 Lee J.H. et al. 1982 cell size C3H8 O2 N2 101.3 293 1 45-74 j_lee82 Lee J.H. et al. 1982 critical tube C2H4 O2 N2 101.3 293 1 23-70 j_lee82 Lee J.H. et al. 1982 cell size C2H4 O2 N2 101.3 293 1 51-70 j_lee82 Lee J.H. et al. 1982 critical tube H2 O2 N2 101.3 293 1 6-53 j_lee82 Lee J.H. et al. 1982 critical tube H2 Air 101.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size H2 Air 101.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size H2 O2 N2 101.3 293 1 32-53 j_lee82 Lee J.H. et al. 1982 critical tube C2H2 O2 N2 101.3 293 1 44-74 at86a Y Y j_lee82 Lee J.H. et al. 1982 10 cell size width C2H2 O2 N2 101.3 293 1 64-74 j_lee82 Lee J.H. et al. 1982 critical tube H2 O2 5.3-20 293 1 j_lee82 Lee J.H. et al. 1982 critical tube CH4 O2 9.3-13.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size C3H8 O2 2.7-13.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size C3H6 O2 4-13.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size C2H6 O2 4-13.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size C2H4 O2 1.3-13.3 293 1 j_lee82 Lee J.H. et al. 1982 cell size C2H2 O2 2.7-13.3 293 "0.625, 1, 2.5" j_lee77 Lee J.H.S. 1977 critical energy C2H2 O2 13.3 293 1 cylindrical mode j_lee77 Lee J.H.S. 1977 critical energy H2 O2 50.7 293 1 cylindrical mode mk82a Y Y j_lee77 Lee J.H.S. 1977 9 critical energy cylindrical H2 O2 12.2-50.7 293 1 at82c Y Y j_lee77 Lee J.H.S. 1977 9 critical energy spherical C2H2 O2 4.1-12.2 293 1 at82b Y Y j_lee77 Lee J.H.S. 1977 9 critical energy cylindrical C2H2 O2 6.1-40.5 293 1 j_lee77 Lee J.H.S. 1977 cell size C2H2 O2 2.0-30.4 293 1 at47a Y Y j_lee77 Lee J.H.S. 1977 11 cell size width H2 O2 5.1-30.4 293 1 Need to get Crooker (69). Looks like Crooker and Strehlow data switched at47b Y Y j_lee77 Lee J.H.S. 1977 11 cell size width H2 O2 Ar 20.3-40.5 293 1 85 j_lee82 Lee J.H.S. et al. 1982 cell size C2H2 O2 1.3-101.3 293 1 j_lee82 Lee J.H.S. et al. 1982 cell size C2H2 O2 1.1-10.7 293 2.5 j_lee82 Lee J.H.S. et al. 1982 cell size C2H2 O2 2.7-13.3 293 0.625 j_lee82 Lee J.H.S. et al. 1982 cell size C2H4 O2 1.3-16 293 1 j_lee82 Lee J.H.S. et al. 1982 cell size C2H6 O2 4-13.3 293 1 j_lee82 Lee J.H.S. et al. 1982 cell size C3H6 O2 4-13.3 293 1 j_lee82 Lee J.H.S. et al. 1982 cell size C3H8 O2 2.7-13.3 293 1 j_lee82 Lee J.H.S. et al. 1982 cell size C4H10 O2 6.7-13.3 293 1 n-Butane j_lee82 Lee J.H.S. et al. 1982 cell size H2 O2 5.3-53.3 293 1 j_lee82 Lee J.H.S. et al. 1982 critical tube C2H2 O2 N2 101.3 293 1 46-74 j_lee82 Lee J.H.S. et al. 1982 critical tube H2 O2 N2 101.3 293 1 6-56 j_lee82 Lee J.H.S. et al. 1982 critical tube C2H4 O2 N2 101.3 293 1 23-69 j_lee82 Lee J.H.S. et al. 1982 critical tube C3H8 O2 N2 101.3 293 1 0-65 j_lee82 Lee J.H.S. et al. 1982 cell size C3H8 O2 N2 101.3 293 1 45-74 j_lee82 Lee J.H.S. et al. 1982 cell size C2H4 O2 N2 101.3 293 1 53-69 j_lee82 Lee J.H.S. et al. 1982 cell size H2 O2 N2 101.3 293 1 32-56 j_lee82 Lee J.H.S. et al. 1982 cell size C2H2 O2 N2 101.3 293 1 64-74 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive C2H2 Air 101.3 293 0.27 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive H2 Air 101.3 293 1 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive C2H4 Air 101.3 293 0.26 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive C2H6 Air 101.3 293 0.26 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive C3H8 Air 101.3 293 0.2 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive C4H10 Air 101.3 293 0.23 j_lee82 Lee J.H.S. et al. 1982 critical energy high explosive H2 Air 101.3 293 0.57-1.93 at189 Y Y m_lefe93 Lefebvre M.H. et al. 1993 3 cell size length H2 O2 Ar+CF3H 26.7 293 1 50 at169e Y Y j_libo75 Libouton J.C. et al. 1975 4 cell size length 18.46CO+H2 O2 11.88Ar+CF3Br 22.7-33.3 293 1 30 at169a Y Y j_libo75 Libouton J.C. et al. 1975 4 cell size length 18.46CO+H2 O2 Ar 4.7-40 293 1 30 at169d Y Y j_libo75 Libouton J.C. et al. 1975 4 cell size length 18.46CO+H2 O2 11.88Ar+CFCl3 13.3-40 293 1 30 at169c Y Y j_libo75 Libouton J.C. et al. 1975 4 cell size length 18.46CO+H2 O2 11.88Ar+CF2Cl2 8-33.3 293 1 30 at169b Y Y j_libo75 Libouton J.C. et al. 1975 4 cell size length 18.46CO+H2 O2 11.88Ar+CF3Cl 9.3-26.7 293 1 30 at55a Y Y e_litc62 Litchfield E.L. et al. 1962 4 critical energy "spherical, spark" H2 O2 101.3 293 .5-1.2 at55b Y Y e_litc62 Litchfield E.L. et al. 1962 4 critical energy "spherical, exploding wire" H2 O2 101.3 293 .27-2 various wires and capacitors at123a Y Y a_mace63 Macek A. 1963 4 critical energy "spherical, exploding wire" H2 O2 CH4 101.3 297 0.82 0-5 at123b Y Y a_mace63 Macek A. 1963 4 critical energy "spherical, exploding wire" H2 O2 CH3Cl 101.3 297 0.82 .7-5 at123d Y Y a_mace63 Macek A. 1963 4 critical energy "spherical, exploding wire" H2 O2 CCl4 101.3 297 0.82 1-5 at123e Y Y a_mace63 Macek A. 1963 4 critical energy "spherical, exploding wire" H2 O2 CHCl3 101.3 297 0.82 1-5 at123f Y Y a_mace63 Macek A. 1963 4 critical energy "spherical, exploding wire" H2 O2 Cl2 101.3 297 0.82 5 at124b Y Y a_mace63 Macek A. 1963 2 critical energy "spherical, exploding wire" H2 O2 C2H6 101.3 297 0.82 1-5 at124c Y Y a_mace63 Macek A. 1963 2 critical energy "spherical, exploding wire" H2 O2 i-C4H10 101.3 297 0.82 2 at124d Y Y a_mace63 Macek A. 1963 2 critical energy "spherical, exploding wire" H2 O2 n-C4H10 101.3 297 0.82 1-3 at124e Y Y a_mace63 Macek A. 1963 2 critical energy "spherical, exploding wire" H2 O2 C3H8 101.3 297 0.82 2-4 at124a Y a_mace63 Macek A. 1963 2 critical energy "spherical, exploding wire" "H2, CH4" O2 101.3 297 0.82 ? at126a Y Y a_mace63 Macek A. 1963 3 critical energy "spherical, exploding wire" H2 O2 Isobutene 101.3 297 0.82 .5-1.5 at126b Y Y a_mace63 Macek A. 1963 3 critical energy "spherical, exploding wire" H2 O2 Trans-butene-2 101.3 297 0.82 .5-2 at126c Y Y a_mace63 Macek A. 1963 3 critical energy "spherical, exploding wire" H2 O2 Propylene 101.3 297 0.82 1-2 at126d Y Y a_mace63 Macek A. 1963 3 critical energy "spherical, exploding wire" H2 O2 Butene-1 101.3 297 0.82 2-3 at126e Y Y a_mace63 Macek A. 1963 3 critical energy "spherical, exploding wire" H2 O2 Ethylene 101.3 297 0.82 1-4 at53 Y Y v_make83 Makeev V.I. et al. 1983 3 critical energy "spherical, high explosive" H2 Air 101.3 293 0.68-2.1 at56a Y Y a_makr94 Makris A. et al. 1994 1 critical tube H2 O2 101.3 293 .6-1.2 at56c Y Y a_makr94 Makris A. et al. 1994 1 critical tube C2H4 O2 101.3 .5-2.7 look near Edwards at57b y_deni59 Denisov Y.N. and Troshin Y.K. 1959 2 cell size width H2 O2 10.1-101.3 293 1 this dataset superseded by mk9b at57a Y Y v_manz74 Manzhalei V.I. and Mitrofanov V.V. 1974 3 cell size width H2 O2 10.1-1013 293 1 at57d Y Y v_manz74 Manzhalei V.I. and Mitrofanov V.V. 1974 3 cell size width CH4 O2 30.4-912 293 1 at57f Y Y v_manz74 Manzhalei V.I. and Mitrofanov V.V. 1974 3 cell size width C2H2 O2 5.1-304 293 1 at57c-mk Y Y v_manz74 Manzhalei V.I. and Mitrofanov V.V. 1974 3 cell size width C2H2 O2 4-614 293 2.5 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H2 O2 101.3 293 1.4 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H4O O2 101.3 293 40 (vol. %) at79b Y Y h_mats79 Matsui H. and Lee J.H. 1979 3 critical energy spherical C2H4 O2 101.3 293 1.33 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C3H6 O2 101.3 293 25 (vol. %) h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C3H8 O2 101.3 293 1.33 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H6 O2 101.3 293 1.29 at79a Y Y h_mats79 Matsui H. and Lee J.H. 1979 3 critical energy spherical CH4 O2 101.3 293 .7-1.7 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical H2 O2 101.3 293 0.9 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H2 Air 101.3 293 1.61 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H4O Air 101.3 293 12.3 (vol. %) h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H4 Air 101.3 293 1.45 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C3H6 Air 101.3 293 1.48 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C3H8 Air 101.3 293 1.41 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical C2H6 Air 101.3 293 1.36 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical CH4 Air 101.3 293 1.29 h_mats79 Matsui H. and Lee J.H. 1979 critical energy spherical H2 Air 101.3 293 1 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C2H2 O2 101.3 293 1 at137g Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube C2H4 O2 14.6-101.3 293 1 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C3H6 O2 101.3 293 1 at75a Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube H2 O2 101.3 293 1 See Moen et al. 1985 h_mats79 Matsui H. and Lee J.H. 1979 critical tube CH4 O2 101.3 293 1 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C3H8 O2 101.3 293 1.43 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C2H2 O2 293 "0.625, 1, 2.5" vs. tube diameter d = 0.5 - 5 cm at22a4 Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H2 Air 101.3 293 1.67 at66b Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H2 O2 N2 101.3 293 1.67 0-69.3 at66a Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H2 O2 N2 101.3 293 1 0-72.9 h_mats79 Matsui H. and Lee J.H. 1979 critical tube CH4 O2 293 1 vs. tube diameter d = 2 - 5 cm h_mats79 Matsui H. and Lee J.H. 1979 critical tube H2 O2 293 1 vs. tube diameter d = 1 - 5 cm at137h Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube C2H6 O2 30-203 293 1 at137i Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube C3H8 O2 23-96 293 1 at137j Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube C3H6 O2 20-132 293 1 mk137k Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube CH4 O2 101-184 293 1 at56d Y Y h_mats79 Matsui H. and Lee J.H. 1979 2 critical tube C2H4 O2 101.3 293 1 at80a h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube CH4 O2 N2 101.3 293 1.33 0 - 37.5 at80b Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H4 O2 101.3 293 1.5 at80c Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H4 O2 101.3 293 2 at72c Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube H2 O2 N2 101.3 293 1 0 - 45 used by Knystautas (1982) at66d Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H6 O2 N2 101.3 293 1.4 0 - 51.7 at66e Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C3H8 O2 N2 101.3 293 1.43 0 - 60.9 at66f Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C3H6 O2 N2 101.3 293 1.5 0 - 60 at66c Y Y h_mats79 Matsui H. and Lee J.H. 1979 4 critical tube C2H4 O2 N2 101.3 293 1.5 0 - 45.5 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C2H4 O2 N2 101.3 293 1.67 0 - 64.3 h_mats79 Matsui H. and Lee J.H. 1979 critical tube C2H2 O2 N2 101.3 293 "1, 1.67" 0 - 69.3 at67a Y Y h_mats79 Matsui H. and Lee J.H. 1979 3 critical energy spherical H2 O2 101.3 293 0.6 - 1.2 "actually critical tube, correlated to critical energy by theory" h_mats79 Matsui H. and Lee J.H. 1979 critical energy CH4 O2 101.3 293 0.75 - 1.35 at44c Y Y h_mats79 Matsui H. and Lee J.H. 1979 3 critical energy spherical C2H6 O2 101.3 293 0.67 - 1.58 used by Westbrook (1982) h_mats79 Matsui H. and Lee J.H. 1979 critical energy C3H8 O2 101.3 293 0.6 - 1.8 h_mats79 Matsui H. and Lee J.H. 1979 critical energy C3H6 O2 101.3 293 0.55 - 1.65 h_mats79 Matsui H. and Lee J.H. 1979 critical energy C2H4 O2 101.3 293 0.8 - 1.8 h_mats79 Matsui H. and Lee J.H. 1979 critical energy C2H4O O2 101.3 293 0.7 - 2.1 at44a Y Y h_mats79 Matsui H. and Lee J.H. 1979 3 critical energy spherical C2H2 O2 0.7 - 2.1 used by Westbrook (1982) i_moen85 Moen I.O. et al. 1985 critical tube H2 O2 293 1 tube diameter 40 mm i_moen85 Moen I.O. et al. 1985 critical tube H2 O2 CF3Br 293 1 5 tube diameter 40 mm i_moen85 Moen I.O. et al. 1985 critical tube H2 O2 CH3Br 293 1 5 tube diameter 40 mm i_moen85 Moen I.O. et al. 1985 critical tube H2 O2 CH3Cl 293 1 5 tube diameter 40 mm i_moen85 Moen I.O. et al. 1985 critical tube H2 O2 CO2 293 1 5 tube diameter 40 mm i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 293 "0.8, 1, 1.5" transmission from 50 mm tube i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 CF3Br 293 "0.8, 1, 1.5" 5 transmission from 50 mm tube at75b Y Y i_moen85 Moen I.O. et al. 1985 3 critical tube H2 O2 40-80 293 1 at75d Y Y i_moen85 Moen I.O. et al. 1985 3 critical tube H2 O2 CF3Br 40-80 293 1 5 at75c Y Y i_moen85 Moen I.O. et al. 1985 3 critical tube H2 O2 CO2 80 293 1 5 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 13.3 293 1 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 CF3Br 13.3 293 1 5 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 CO2 20 293 1 5 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 20 293 0.8 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 13.3 293 1.5 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 CF3Br 18.7 293 0.8 5 i_moen85 Moen I.O. et al. 1985 critical tube C2H4 O2 CF3Br 13.3 293 1.5 5 at22a1 Y Y i_moen84 Moen I.O. et al. 1984 3 critical tube C2H2 Air 101.3 293 0.6 i_moen84 Moen I.O. et al. 1984 critical tube H2 Air 101.3 293 "0.5, 0.55, 1" at22b Y Y i_moen84 Moen I.O. et al. 1984 3 critical tube C2H4 Air 101.3 293 0.6 at22c Y Y i_moen82 Moen I.O. et al. 1982 3 critical tube C2H4 Air 101.3 293 .7-1 at77a Y Y i_moen85 Moen I.O. et al. 1985 2 critical tube C2H4 Air CF4 101.3 293 0.88 1.5 transmission from 0.89 m tube to 1.83 m bag at77b Y Y i_moen85 Moen I.O. et al. 1985 2 critical tube C2H4 Air CF3Br 101.3 293 0.88 1.5 transmission from 0.89 m tube to 1.83 m bag at77c Y Y i_moen85 Moen I.O. et al. 1985 2 critical tube C2H4 Air CF3Br 101.3 293 0.88 3 transmission from 0.89 m tube to 1.83 m bag at77d Y Y i_moen85 Moen I.O. et al. 1985 2 critical tube C2H4 Air CO2 101.3 293 0.88 3 transmission from 0.89 m tube to 1.83 m bag i_moen84 Moen I.O. et al. 1984 critical tube C3H8 Air 101.3 293 "0.8, 1.15, 1.25" mk22e Y Y i_moen84 Moen I.O. et al. 1984 3 critical tube C2H6 Air 101.3 293 "1.05, 1.25" at157h Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C2H6 Air 92.5 293 1.0-1.3 mk157n Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C2H2 Air 92.5 293 0.5-0.61 at157c Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C2H4 Air 92.5 293 0.55-1.1 at157k Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C3H8 Air 92.5 293 0.75-1.62 at157f Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C2H4 Air 92.5 293 1 Borisov private communication mk157g Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width C2H4 Air 92.5 293 .5-.7 "is this from an earlier reference? (81, 82)" at157a Y Y i_moen84 Moen I.O. et al. 1984 5 cell size width CH4 Air 92.5 293 1 i_moen86 Moen I.O. et al. 1986 critical tube C2H2 O2 Ar 101.3 293 1 "70, 75" i_moen86 Moen I.O. et al. 1986 critical tube C2H2 O2 101.3 293 1 i_moen86 Moen I.O. et al. 1986 critical tube H2 O2 101.3 293 1 i_moen86 Moen I.O. et al. 1986 critical tube C2H6 O2 101.3 293 1 i_moen86 Moen I.O. et al. 1986 critical tube C2H2 O2 Ar 33.3-60 293 1 75 i_moen86 Moen I.O. et al. 1986 critical tube C2H2 O2 3.3-6 293 1 at31d Y i_moen82 Moen I.O. et al. 1982 critical tube C2H4 Air 101.3 293 0.7-1.6 used in Knystautas et al. (84); duplicate of at22b and at22c at203 Y Y i_moen82 Moen I.O. et al. 1982 4 cell size width C2H4 Air 92.5 293 0.6-1.1 only averaged cell widths reported - dominant bands also used at20a Y Y a_rinn82 Rinnan A. 1982 2 critical tube C2H2 Air 101.3 293 0.45-0.75 mk6 Y Y s_murr86 Murray S.B. and Lee J.H. 1986 4 cell size width C2H2 O2 N2 101.3 293 1 70-80 at158 Y Y s_murr84 Murray S.B. and Lee J.H. 1984 2 cell size width C2H4 Air 101.3 293 .5-1.1 Private Communication from Knystautas j_nich79 Nicholls J.A. et al. 1979 critical energy cylindrical CH4 O2 N2 101.3 293 1 45.5 - 62.5 cylindrical detonation initiated by blasting cap j_nich79 Nicholls J.A. et al. 1979 critical energy cylindrical CH4 O2 N2 101.3 293 1 33 - 65 j_nich79 Nicholls J.A. et al. 1979 critical energy cylindrical CH4 O2 N2 101.3 298 1 50-62 cylindrical mode m_nola73 Nolan M.E. 1973 minimum tube CH4 O2 Ar 101.3 293 0.2 - 1.6 0 - 72 "4 mm, 10 mm and infinity tube" m_nola73 Nolan M.E. 1973 minimum tube CH4 O2 N2 101.3 293 0.2 - 1.6 0 - 58 "4 mm, 10 mm and infinity tube" m_nola73 Nolan M.E. 1973 minimum tube H2 O2 N2 101.3 293 0.15 - 1.41 0 - 85 "4 mm, 10 mm and infinity tube" m_nola73 Nolan M.E. 1973 minimum tube H2 O2 Ar 101.3 293 0.14 - 1.41 0 - 90 "4 mm, 10 mm and infinity tube" m_nola73 Nolan M.E. 1973 minimum tube H2 O2 He 101.3 293 0.15 - 1.41 0 - 84 "4 mm, 10 mm and infinity tube" m_nola73 Nolan M.E. 1973 minimum tube H2+CO O2 101.3 293 m_nola73 Nolan M.E. 1973 minimum tube CH4 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C2H2 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C2H4 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C2H6 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C3H6 O2 101.3 293 leanand reach limit m_nola73 Nolan M.E. 1973 minimum tube C3H8 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C4H10 O2 101.3 393 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C5H12 O2 101.3 293 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C6H6 O2 101.3 373 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C6H12 O2 101.3 373 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C8H10 O2 101.3 433 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C10H22 O2 101.3 433 lean and reach limit m_nola73 Nolan M.E. 1973 minimum tube C16H34 O2 101.3 433 lean limit at70a Y Y e_nzey91 Nzeyimana E. and Van Tiggelen P.J. 1991 3 cell size length H2 O2 Ar+CF4 26.7 293 0.8 50 at70b Y Y e_nzey91 Nzeyimana E. and Van Tiggelen P.J. 1991 3 cell size length H2 O2 Ar+CF4 26.7 293 1 50 at70c Y Y e_nzey91 Nzeyimana E. and Van Tiggelen P.J. 1991 3 cell size length H2 O2 Ar+CF4 26.7 293 1.2 50 s_ohya84 Ohyagi S. et al. 1984 critical energy CH4 O2 N2 101.3 298 1 50-70 planar mode c_pail91 Paillard C. et al. 1991 cell size 3.6-13.3 293 tube diameter: 38 mm c_pail91 Paillard C. et al. 1991 cell size HN3 .17-2.67 293 tube diameter: 22 mm m_pedl88 Pedley M.D. et al. 1988 5 cell size N2H4 .65-2.6 308 m_pedl88 Pedley M.D. et al. 1988 5 cell size N2H4 .65-7 323 m_pedl88 Pedley M.D. et al. 1988 5 cell size N2H4 1.3-13 345 m_pedl88 Pedley M.D. et al. 1988 5 cell size N2H4 1.3-70 393 m_pedl88 Pedley M.D. et al. 1988 7 critical tube N2H4 10-100 393 at184b Y Y m_pedl88 Pedley M.D. et al. 1988 6 cell size width C2H2 O2 1.3-13 293 1 mk184d Y Y m_pedl88 Pedley M.D. et al. 1988 6 cell size width N2H4 .7-2.6 293 m_pedl88 Pedley M.D. et al. 1988 cell size C2H4 O2 1.3-13 ? 1 m_pedl88 Pedley M.D. et al. 1988 cell size C3H8 O2 4-13 ? 1 m_pedl88 Pedley M.D. et al. 1988 cell size H2 O2 5-20 ? 1 at184a Y Y m_pedl88 Pedley M.D. et al. 1988 6 cell size width CH4 O2 7-13 293 1 at43 Y Y m_plas91 Plaster M. et al. 1991 8 critical tube H2 O2 100 100 0.25-3 at133 Y Y w_pusc62 Pusch W. and Wagner H.G. 1962 9 minimum tube CH4 O2 101.3 293 0.3 - 1.5 j_shep88 Shepherd J.E. et al. 1988 critical tube C2H2 O2 293 1 transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 critical tube C2H2 O2 Ar 293 1 "20, 40, 60, 75, 80" transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 cirtical tube H2 O2 293 1 transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 critical tube H2 O2 Ar 293 1 "50, 75" transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 critical tube C2H6 O2 293 1 transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 critical tube C2H6 O2 Ar 293 1 "50, 75" transmission through 52 mm j_shep88 Shepherd J.E. et al. 1988 critical tube C2H2 Air 293 0.64 transmission through 0.89 m j_shep88 Shepherd J.E. et al. 1986 critical tube H2S Air 101.3 293 0.7-1.7 mk168a Y Y j_shep86 Shepherd J.E. et al. 1986 11 cell size width H2S Air 101.3 293 0.78-1.18 "McGill data, private communication" mk168b Y Y j_shep86 Shepherd J.E. et al. 1986 11 cell size width H2S Air 101.3 293 0.78-1.18 "DRES data, but can't find original reference" d_stam91 Stamps D.W. and Tieszen S.R. 1991 cell size H2 Air CO2 101.3 "293, 373" "0.61, 1.0, 1.97" 10 d_stam91 Stamps D.W. and Tieszen S.R. 1991 cell size H2 Air CO2 101.3 "293, 373" 1 "0, 5, 10, 15, 20" d_stam91 Stamps D.W. and Tieszen S.R. 1991 cell size H2 Air steam 101.3 "293, 373" 1 "0, 10, 20, 30" at5a Y Y d_stam91 Stamps D.W. and Tieszen S.R. 1991 2 cell size width H2 Air 25.3 - 152.0 293 1 at5b Y Y d_stam91 Stamps D.W. and Tieszen S.R. 1991 2 cell size width H2 Air 20.2 - 253.3 293 0.5 d_stam91 Stamps D.W. and Tieszen S.R. 1991 cell size H2 Air steam 101.3-253.3 373 1 "0, 10, 20, 30" d_stam91 Stamps D.W. and Tieszen S.R. 1991 cell size H2 Air 101.3 "293, 423" "0.425, 0.6, 1.0, 3.0" r_stre69a Strehlow R.A. 1969 cell size H2 O2 Ar 33.3 293 1 0-82 r_stre69a Strehlow R.A. 1970 cell size H2 O2 Ar 12.2-30.4 293 1 "50, 70, 77.5, 85" at128a Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5a cell size width CH4 O2 Ar 15.2-50.7 293 1 50 at128b Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5a cell size width C2H4 O2 4.1-15.2 293 1 at128c Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5a cell size width C2H4 O2 Ar 4.1-35.5 293 1 50 at128d Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5a cell size width C2H4 O2 Ar 12.2-70.9 293 1 75 at129c Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5b cell size width C2H2 O2 1.5-101.3 293 1 "marked as from ref. 8, but apparently original" at129e Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5b cell size width C2H2 O2 1.5-18.2 293 0.625 at129f Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 5b cell size width C2H2 O2 He 20.3-40.5 293 1 75 at69a Y Y r_stre67 Strehlow R.A. and Engel C.D. 1967 5c cell size width C2H2 O2 Ar 6.1-40.5 293 1 85 at69b Y Y r_stre67 Strehlow R.A. and Engel C.D. 1967 5c cell size width C2H2 O2 Ar 6.1-40.5 293 1 75 at64c Y Y r_stre69c Strehlow R.A. and Engel C.D. 1969 5 cell size width H2 O2 Ar 13.2-32.4 293 0.36 60 at64b Y Y r_stre69c Strehlow R.A. and Engel C.D. 1969 5 cell size width H2 O2 Ar 13.2-32.4 293 2.12 60 at64a Y Y r_stre69c Strehlow R.A. and Engel C.D. 1969 5 cell size width H2 O2 3.75Ar+N2 13.2-32.4 293 1 76 at62a Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 4b cell size width H2 O2 5.6-32.4 293 1 "marked as from ref. 8, but apparently original" at69f Y Y r_stre67 Strehlow R.A. et al. 1967 5b cell size width H2 O2 He 14-47 293 1 70 at69c Y Y r_stre67 Strehlow R.A. et al. 1967 5b cell size width H2 O2 Ar 8-47 293 1 50 at69d Y Y r_stre67 Strehlow R.A. et al. 1967 5b cell size width H2 O2 Ar 10-40 293 1 70 at69e Y Y r_stre67 Strehlow R.A. et al. 1967 5b cell size width H2 O2 Ar 8-40 293 1 77.5 at69g Y Y r_stre67 Strehlow R.A. et al. 1967 5b cell size width H2 O2 Ar 24-46 293 1 85 at62b Y Y r_stre69b Strehlow R.A. and Engel C.D. 1969 4b cell size width H2 O2 Ar 9.1-40.5 293 1 40 r_stre69c Strehlow R.A. et al. 1969 cell size H2 O2 Ar 10.1-50.7 293 1 "50, 70, 77.5, 85" r_stre69c Strehlow R.A. et al. 1969 cell size H2 O2 He 20.3-50.7 293 1 70 r_stre69c Strehlow R.A. et al. 1969 cell size H2 O2 10.1-33.4 293 "0.36, 1, 2.12" at65 Y Y r_stre69c Strehlow R.A. et al. 1969 7 cell size width H2 O2 Ar 1.3-7.3 600 - 800 1 70 r_stre69c Strehlow R.A. et al. 1967 cell size H2 O2 Ar 0.1 - 0.5 293 1 "0, 50, 70, 85" r_stre69c Strehlow R.A. et al. 1967 cell size H2 O2 He 0.14 - 0.5 293 1 70 r_stre69c Strehlow R.A. et al. 1967 cell size C2H2 O2 Ar 0.06 - 0.4 293 1 "75, 85" at3a Y Y s_ties86 Tieszen S.R. et al. 1986 5 cell size width H2 Air 150 - 300 373 0.35 - 3 Constant air density at3b Y Y s_ties86 Tieszen S.R. et al. 1986 5 cell size width H2 Air steam 150 - 304 373 .5 - 2 10 Constant air density at3c Y Y s_ties86 Tieszen S.R. et al. 1986 5 cell size width H2 Air steam 150 - 304 373 .8 - 2 20 Constant air density at3d Y Y s_ties86 Tieszen S.R. et al. 1986 5 cell size width H2 Air steam 150 - 304 373 .93 - 1.04 30 Constant air density at4 Y Y s_ties86 Tieszen S.R. et al. 1986 3 cell size width H2 Air 101.3 298 0.4 - 5 s_ties86 Tieszen S.R. et al. 1986 5 cell size H2 Air 101.3 373 0.4 - 5 s_ties86 Tieszen S.R. et al. 1986 cell size H2 Air CO2 101.3 298 0.4 - 5 "0, 5, 10, 15" at172a Y Y s_ties91 Tieszen S.R. et al. 1991 T. 3 cell size width C2H2 Air 101.325 298-373 1 at172b Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "n-octane, C8H18" Air 101.3 373 1 at171b Y Y s_ties91 Tieszen S.R. et al. 1991 T.3 cell size width C2H6 Air 101.3 298-373 1 at172c Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width 1-Octene Air 101.3 373 1 at172e Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "1,7-Octadiene" Air 101.3 373 1 at172d Y Y s_ties91 Tieszen S.R. et al. 1991 T.3 cell size width C2H4 Air 101.3 298-373 1 at172f Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width Octyne Air 101.3 373 1 at172g Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "1,7-Octadiyne" Air 101.3 373 1 at171a Y Y s_ties91 Tieszen S.R. et al. 1991 T.3 cell size width CH4 Air 101.3 298-373 1 at172h Y Y s_ties91 Tieszen S.R. et al. 1991 T.3 cell size width C3H8 Air 101.3 "298, 373" 1 at172i Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width C6H14 Air 101.3 373 1 at172j Y Y s_ties91 Tieszen S.R. et al. 1991 3 cell size width JP4 Air 101.3 373 1 at172k Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width C10H22 Air 101.3 373 1 at170a Y Y s_ties91 Tieszen S.R. et al. 1991 6 cell size width Hexylnitrate Air 101.3 373 .4-2 at170b Y Y s_ties91 Tieszen S.R. et al. 1991 6 cell size width Nitrohexane Air 101.3 373 0.7 at170c Y Y s_ties91 Tieszen S.R. et al. 1991 6 cell size width Nitroethane Air 101.3 373 .35-1.0 at172l Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "2,2,4-Trimethylpentane" Air 101.3 373 1 at172m Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "Cyclooctane, C8H18" Air 101.3 373 1 at172n Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width Cis-Cyclooctene Air 101.3 373 1 at172o Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width Pentyl Ether Air 101.3 373 1 at172p Y Y s_ties91 Tieszen S.R. et al. 1991 T.6 cell size width "1,2-Epoxydecane" Air 101.3 373 1 s_tsug70 Tsuge S. et al. 1970 critical tube H2 O2 101.3 293 0.6-1.12 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H2 O2 101.3 293 1.4 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H4O O2 101.3 293 1.4 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H4 O2 101.3 293 1.33 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C3H6 O2 101.3 293 ? p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C3H8 O2 101.3 293 1.33 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H6 O2 101.3 293 3 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy H2 O2 101.3 293 1 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy CH4 O2 101.3 293 1.2 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H2 Air 101.3 293 1.61 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H4O Air 101.3 293 1.59 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H4 Air 101.3 293 1.45 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C3H6 Air 101.3 293 1.48 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C3H8 Air 101.3 293 1.41 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy C2H6 Air 101.3 293 1 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy H2 Air 101.3 293 1 p_urti81 Urtiew P.A. and Tarver C.M. 1981 critical energy CH4 Air 101.3 293 1.3 r_vand79 Vander Molen R. and Nicholls J.A. 1979 critical energy CH4+C2H6 Air 101.3 293 1 10 - 100% ethane in fuel m_vand84 Vandermeiren M. and Van Tiggelen P.J. 1984 cell size C2H2 O2 Ar 3.3-33.3 293 0.33-2.5 70 m_vand84 Vandermeiren M. and Van Tiggelen P.J. 1984 cell size C2H2 O2 Ar 3.3-33.3 293 0.33 "30, 50, 70" m_vand84 Vandermeiren M. and Van Tiggelen P.J. 1984 cell size C2H2 O2 3.3-33.3 293 0.33 m_vand88 Vandermeiren M. and Van Tiggelen P.J. 1988 cell size C2H2 O2 Ar+CF3Br "6.7, 13.3, 33.3" 293 0.33 "50 Ar, 0-6.7 CF3Br" at54a Y Y a_vasi82 Vasil'ev A.A. 1982 5 critical energy cylindrical C2H2 O2 2.7-5.3 293 1 a_vasi82 Vasil'ev A.A. 1982 critical energy H2 O2 53.3 293 1 at105a Y Y a_vasi80 Vasil'ev A.A. and Grigor'ev V.V. 1980 5 critical energy "cylindrical, high explosive" C2H2 Air 30.4-101.3 293 1 not GO-NO GO data; interpreted data; not sure about conversion a_vasi80 Vasil'ev A.A. and Grigor'ev V.V. 1980 cell size C2H2 Air 50.7-202.7 293 1 a_vasi80 Vasil'ev A.A. and Grigor'ev V.V. 1980 critical energy C2H2 O2 6.7-40 293 1 cylindrical mode a_vasi80 Vasil'ev A.A. and Grigor'ev V.V. 1980 critical tube C2H2 O2 10.1-101.3 293 1 a_vasi80 Vasil'ev A.A. and Grigor'ev V.V. 1980 cell size C2H2 O2 10.1-50.7 293 1 mk8b Y Y b_voit66 Voitsekhovski B.V. et al. 1966 45b cell size width C2H2 O2 3.0-133 293 1 apparently switched a and b in caption mk8a Y Y b_voit66 Voitsekhovski B.V. et al. 1966 45a cell size width H2 O2 13-85 293 1 apparently switched a and b in caption c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube CH4 O2 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube H2 O2 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube C2H6 O2 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube C2H4 O2 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube C2H2 O2 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube C2H2 Air 101.3 293 1 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical tube C2H2 O2 N2 101.3 293 1 0-60 at200c Y Y i_moen81 Moen I.O. et al. 1981 5 critical tube C2H4 O2 N2 101.3 293 1 0-70 c_west82 Westbrook C.K. and Urtiew P.A. 1982 critical energy CH4 ? ? 293 0.7-1.7 initiation of unconfined spherical detonation at115 Y Y p_wola81 Wolanski P. et al. 1981 6 critical energy planar CH4 Air 101.3 293 .8-1.4 att2 Y Y y_zeld56 Zeldovich Y.B. 1956 T.2 critical tube CH4 O2 106.7 293 1 mk127 Y Y y_zeld56 Zeldovich Y.B. 1956 20 critical tube C2H2 O2 N2 106.7 293 1 0-57 at21a Y Y d_desb90 Desbordes D 1990 cell size width H2 O2 50.7-101.3 293 1 used by Zitoun at21b Y Y r_zito95 Zitoun R. et al. 1995 12 cell size width H2 O2 50.7-101.3 293 1 at21c Y Y r_zito95 Zitoun R. et al. 1995 12 cell size width H2 O2 50.7-101.3 123 1 at49a Y Y r_zito95 Zitoun R. et al. 1995 8 critical energy spherical H2 O2 50-80 293 1 at49b Y Y r_zito95 Zitoun R. et al. 1995 9 critical energy spherical H2 O2 36-70 123 1