
===========> O I input:
Reading atomic-data-hillier/atomic/OXY/I/20sep11/oi_osc_mchf
File specifies 199 levels
File specifies 4193 transitions
Read 199 levels
Read 4193 transitions
Found at least one transition specifying level name with no J value
Reading atomic-data-hillier/atomic/OXY/I/20sep11/oi_col
Temperatures available for effective collision strengths (units of 1.0e+04 K):
0.10, 0.15, 0.20, 0.25, 0.30, 0.40, 0.50, 0.60, 0.80, 1.00, 1.20, 1.40, 1.60, 2.00, 2.50, 3.00, 3.50, 4.00, 5.00, 6.00
Selecting 6000.000 K
Read 38 effective collision strengths 
Output 243 effective collision strengths 
Reading atomic-data-hillier/atomic/OXY/I/20sep11/phot_nosm_A
Photoionisation target: 2s2_2p3_4So/2p^3_4So
20 levels with cross-section type 2: Hydrogenic split l (z states, n > 11) [n, l_start, l_end]
18 levels with cross-section type 3: Hydrogenic pure n level (all l, n >= 13) [scale, n]
69 levels with cross-section type 20: Opacity Project: smoothed [number of data points]
Reading atomic-data-hillier/atomic/OXY/I/20sep11/phot_nosm_B
Photoionisation target: 2s2_2p3_2Do
102 levels with cross-section type 1: Seaton formula fit [sigma_o, alpha, beta]
20 levels with cross-section type 2: Hydrogenic split l (z states, n > 11) [n, l_start, l_end]
18 levels with cross-section type 3: Hydrogenic pure n level (all l, n >= 13) [scale, n]
69 levels with cross-section type 20: Opacity Project: smoothed [number of data points]

===========> O I output:
Adding in 190 extra transitions with only upsilon values
Writing to 'adata.txt'
Writing to 'transitiondata.txt'
Output 4383 transitions of which 1258 are forbidden and 186 have collision strengths
Writing to 'phixsdata2.txt'
Downsampling cross sections assuming T=6000 Kelvin, nphixspoints=100, phixsnuincrement=0.03
