!MOLECULE HF pure-rot from JPL !MOLECULAR WEIGHT 20. ! NUMBER OF ENERGY LEVELS 9 !LEVEL + ENERGY(cm^-1) + WEIGHT + QNUM(v,J) 1 0.000000000 1.0 0 2 41.110983186 3.0 1 3 123.282117860 5.0 2 4 246.411770260 7.0 3 5 410.347964465 9.0 4 6 614.888349113 11.0 5 7 859.781218521 13.0 6 8 1144.725393803 15.0 7 9 1469.371544334 17.0 8 ! NUMBER OF RADIATIVE TRANSITIONS 8 !TRANS + U + L + A(s^-1) + FREQ(GHz) + E_u/k(K) + WAVENUMBER(cm^-1) 1 2 1 2.423E-02 1232.47627000 59.15 41.11098 2 3 2 2.322E-01 2463.42814000 177.38 82.17112 3 4 3 8.371E-01 3691.33465000 354.53 123.12967 4 5 4 2.049E+00 4914.68257000 590.40 163.93616 5 6 5 4.070E+00 6131.96840000 884.69 204.54045 6 7 6 7.092E+00 7341.70200110 1237.03 244.89282 7 8 7 1.130E+01 8542.41202530 1647.00 284.94419 8 9 8 1.685E+01 9732.64655900 2114.10 324.64614 !NUMBER OF COLL PARTNERS 4 ! Partner 1 2 para-H2 from Guillon & Stoecklin 2012 MNRAS ! NUMBER OF COLLISIONAL TRANSITIONS 15 ! number of temperatures 6 ! temperatures 10 30 50 80 100 150 ! transition-number upper-state lower-state rate (cm^3s^-1) 1 2 1 1.09e-10 1.27e-10 1.30e-10 1.29e-10 1.27e-10 1.20e-10 2 3 1 6.13e-12 7.07e-12 7.83e-12 9.03e-12 9.78e-12 1.15e-11 3 3 2 2.88e-11 3.18e-11 3.38e-11 3.68e-11 3.86e-11 4.26e-11 4 4 1 1.46e-13 1.78e-13 2.13e-13 2.76e-13 3.21e-13 4.49e-13 5 4 2 1.12e-12 1.28e-12 1.47e-12 1.82e-12 2.08e-12 2.87e-12 6 4 3 7.01e-12 7.59e-12 8.40e-12 9.92e-12 1.10e-11 1.39e-11 7 5 1 7.50e-15 9.08e-15 1.06e-14 1.36e-14 1.60e-14 2.33e-14 8 5 2 1.30e-13 1.32e-13 1.42e-13 1.68e-13 1.90e-13 2.66e-13 9 5 3 5.97e-14 8.63e-14 1.16e-13 1.77e-13 2.32e-13 4.30e-13 10 5 4 1.45e-12 1.90e-12 2.34e-12 3.06e-12 3.58e-12 5.10e-12 11 6 1 4.38e-15 5.09e-15 5.71e-15 6.86e-15 7.75e-15 1.06e-14 12 6 2 3.33e-15 3.62e-15 4.04e-15 5.06e-15 5.94e-15 9.06e-15 13 6 3 6.28e-14 7.39e-14 8.36e-14 1.01e-13 1.14e-13 1.57e-13 14 6 4 8.68e-14 1.07e-13 1.28e-13 1.68e-13 1.99e-13 3.09e-13 15 6 5 6.58e-13 8.34e-13 9.94e-13 1.28e-12 1.51e-12 2.24e-12 ! Partner 2 3 ortho-H2 from Guillon & Stoecklin 2012 MNRAS ! NUMBER OF COLLISIONAL TRANSITIONS 15 ! number of temperatures 6 ! temperatures 10 30 50 80 100 150 ! transition-number upper-state lower-state rate (cm^3s^-1) 1 2 1 8.68e-11 1.11e-10 1.33e-10 1.59e-10 1.70e-10 1.90e-10 2 3 1 3.05e-12 3.84e-12 4.81e-12 6.54e-12 7.72e-12 1.07e-11 3 3 2 7.81e-11 9.15e-11 1.04e-10 1.23e-10 1.34e-10 1.59e-10 4 4 1 1.23e-12 1.46e-12 1.69e-12 2.08e-12 2.36e-12 3.08e-12 5 4 2 1.67e-12 1.86e-12 2.19e-12 2.90e-12 3.46e-12 5.22e-12 6 4 3 3.97e-11 4.45e-11 5.04e-11 6.10e-11 6.83e-11 8.75e-11 7 5 1 4.19e-14 4.33e-14 5.04e-14 6.69e-14 8.09e-14 1.28e-13 8 5 2 4.62e-13 4.96e-13 5.74e-13 7.39e-13 8.69e-13 1.28e-12 9 5 3 1.15e-12 1.19e-12 1.37e-12 1.78e-12 2.14e-12 3.41e-12 10 5 4 2.32e-11 2.45e-11 2.73e-11 3.29e-11 3.71e-11 4.94e-11 11 6 1 5.27e-15 5.26e-15 5.99e-15 7.83e-15 9.46e-15 1.54e-14 12 6 2 2.25e-14 2.25e-14 2.56e-14 3.32e-14 3.98e-14 6.33e-14 13 6 3 2.01e-13 2.03e-13 2.30e-13 2.93e-13 3.47e-13 5.29e-13 14 6 4 6.06e-13 5.92e-13 6.55e-13 8.15e-13 9.54e-13 1.45e-12 15 6 5 1.40e-11 1.40e-11 1.53e-11 1.85e-11 2.11e-11 2.89e-11 ! PARTNER 3, collisions between: 4 Electrons: Born approximation scaled to R-matrix (Thuemmel et al) ! NUMBER OF COLLISIONAL TRANSITIONS 8 ! NUMBER OF COLLISIONAL TEMPERATURES 12 ! COLLISIONAL TEMPERATURES 10.0 20.0 30.0 50.0 75.0 100.0 150.0 200.0 300.0 500.0 750.0 1000.0 ! COLLISION RATES 1 2 1 0.728E-06 0.708E-06 0.691E-06 0.662E-06 0.635E-06 0.613E-06 0.578E-06 0.551E-06 0.512E-06 0.460E-06 0.419E-06 0.390E-06 2 3 2 0.628E-06 0.618E-06 0.609E-06 0.594E-06 0.577E-06 0.563E-06 0.539E-06 0.520E-06 0.491E-06 0.450E-06 0.415E-06 0.391E-06 3 4 3 0.553E-06 0.547E-06 0.541E-06 0.531E-06 0.519E-06 0.509E-06 0.492E-06 0.478E-06 0.455E-06 0.422E-06 0.393E-06 0.372E-06 4 5 4 0.496E-06 0.493E-06 0.489E-06 0.482E-06 0.473E-06 0.466E-06 0.453E-06 0.441E-06 0.423E-06 0.395E-06 0.371E-06 0.353E-06 5 6 5 0.456E-06 0.453E-06 0.450E-06 0.445E-06 0.438E-06 0.432E-06 0.422E-06 0.412E-06 0.397E-06 0.373E-06 0.352E-06 0.336E-06 6 7 6 0.422E-06 0.420E-06 0.418E-06 0.414E-06 0.409E-06 0.404E-06 0.395E-06 0.388E-06 0.374E-06 0.354E-06 0.335E-06 0.321E-06 7 8 7 0.396E-06 0.394E-06 0.393E-06 0.390E-06 0.386E-06 0.382E-06 0.374E-06 0.368E-06 0.356E-06 0.338E-06 0.321E-06 0.308E-06 8 9 8 0.373E-06 0.372E-06 0.370E-06 0.368E-06 0.364E-06 0.361E-06 0.355E-06 0.349E-06 0.339E-06 0.323E-06 0.308E-06 0.296E-06 ! PARTNER 4, collisions between: 6 He collisions from Reese et al. (2005, A&A, 430, 1139) ! NUMBER OF COLLISIONAL TRANSITIONS 36 ! NUMBER OF COLLISIONAL TEMPERATURES 7 ! COLLISIONAL TEMPERATURES 10.0 30.0 50.0 80.0 100.0 200.0 300.0 ! COLLISION RATES 1 2 1 9.9200e-13 1.8400e-12 2.9100e-12 4.6300e-12 5.8100e-12 1.1400e-11 1.6300e-11 2 3 1 1.3700e-13 1.7900e-13 2.6600e-13 4.6300e-13 6.3200e-13 1.8000e-12 3.2700e-12 3 3 2 8.0300e-12 7.6500e-12 8.4400e-12 1.0100e-11 1.1400e-11 1.7900e-11 2.3900e-11 4 4 1 2.9300e-13 3.0600e-13 3.5800e-13 4.4400e-13 4.9900e-13 7.3200e-13 9.1800e-13 5 4 2 7.7400e-13 7.9900e-13 9.5000e-13 1.2700e-12 1.5200e-12 3.1800e-12 5.2200e-12 6 4 3 1.0000e-11 9.9300e-12 1.1100e-11 1.3300e-11 1.4800e-11 2.2000e-11 2.8500e-11 7 5 1 6.6200e-14 7.2000e-14 9.0200e-14 1.2700e-13 1.5500e-13 3.2300e-13 5.1100e-13 8 5 2 1.6100e-13 1.7800e-13 2.2400e-13 3.1200e-13 3.7800e-13 7.5400e-13 1.1800e-12 9 5 3 9.1000e-13 9.6900e-13 1.1800e-12 1.5900e-12 1.9000e-12 3.7800e-12 5.9300e-12 10 5 4 9.4200e-12 9.6900e-12 1.1200e-11 1.3800e-11 1.5600e-11 2.4100e-11 3.1300e-11 11 6 1 1.1800e-14 1.3300e-14 1.7600e-14 2.7100e-14 3.5200e-14 9.4600e-14 1.7800e-13 12 6 2 5.6500e-14 6.3400e-14 8.2700e-14 1.2300e-13 1.5700e-13 3.7600e-13 6.5500e-13 13 6 3 1.1100e-13 1.2300e-13 1.5800e-13 2.3100e-13 2.8900e-13 6.6100e-13 1.1400e-12 14 6 4 8.0100e-13 8.7000e-13 1.0800e-12 1.5100e-12 1.8400e-12 3.8000e-12 6.0100e-12 15 6 5 7.8200e-12 8.2300e-12 9.7500e-12 1.2500e-11 1.4400e-11 2.3800e-11 3.1800e-11 16 7 1 1.9900e-15 2.2800e-15 3.1300e-15 5.1700e-15 7.0400e-15 2.3400e-14 5.1900e-14 17 7 2 1.1600e-14 1.3300e-14 1.8100e-14 2.9200e-14 3.9100e-14 1.1700e-13 2.3600e-13 18 7 3 3.6300e-14 4.1700e-14 5.6000e-14 8.7900e-14 1.1500e-13 3.1200e-13 5.9300e-13 19 7 4 8.8900e-14 9.9700e-14 1.3000e-13 1.9700e-13 2.5200e-13 6.3300e-13 1.1600e-12 20 7 5 6.2600e-13 6.9300e-13 8.8300e-13 1.2700e-12 1.5800e-12 3.4800e-12 5.6500e-12 21 7 6 6.1000e-12 6.5300e-12 7.9200e-12 1.0500e-11 1.2400e-11 2.1900e-11 3.0500e-11 22 8 1 5.3900e-16 6.3000e-16 8.8700e-16 1.5300e-15 2.1500e-15 8.1500e-15 1.8800e-14 23 8 2 2.2900e-15 2.6800e-15 3.7500e-15 6.4100e-15 8.9400e-15 3.2400e-14 7.1500e-14 24 8 3 7.6200e-15 8.8900e-15 1.2400e-14 2.0700e-14 2.8400e-14 9.3400e-14 1.9300e-13 25 8 4 2.2200e-14 2.5800e-14 3.5500e-14 5.8000e-14 7.8200e-14 2.3800e-13 4.6900e-13 26 8 5 7.0100e-14 7.9500e-14 1.0600e-13 1.6600e-13 2.1700e-13 5.9700e-13 1.1100e-12 27 8 6 4.6400e-13 5.1900e-13 6.7600e-13 1.0100e-12 1.2800e-12 3.0100e-12 4.9800e-12 28 8 7 4.6100e-12 5.0000e-12 6.1900e-12 8.4700e-12 1.0200e-11 1.9300e-11 2.7700e-11 29 9 1 1.4000e-16 1.6600e-16 2.4000e-16 4.3400e-16 6.3000e-16 2.7600e-15 7.6300e-15 30 9 2 5.2900e-16 6.2900e-16 9.1100e-16 1.6500e-15 2.3900e-15 1.0200e-14 2.7100e-14 31 9 3 1.5600e-15 1.8500e-15 2.6600e-15 4.7200e-15 6.7300e-15 2.6600e-14 6.7600e-14 32 9 4 4.6900e-15 5.5200e-15 7.8000e-15 1.3500e-14 1.8900e-14 6.8100e-14 1.5900e-13 33 9 5 1.4000e-14 1.6300e-14 2.2800e-14 3.8500e-14 5.3000e-14 1.8000e-13 4.0000e-13 34 9 6 5.1100e-14 5.9100e-14 8.0900e-14 1.3100e-13 1.7600e-13 5.2700e-13 1.0500e-12 35 9 7 3.3400e-13 3.7800e-13 5.0100e-13 7.6700e-13 9.9100e-13 2.5000e-12 4.3500e-12 36 9 8 3.4200e-12 3.7600e-12 4.7300e-12 6.6600e-12 8.1300e-12 1.6500e-11 2.4900e-11