Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. NO 0.237 A 2 Σ + → X 2 Π (0,1) 6742 1583 0.248 A 2 Σ + → X 2 Π (0,2) 6742 1583 S 2 0.362-0.570 B 3 Σ - u → X 3 Σ - g 6777,6779 1598 0.3620 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,7) 6778,6779 1599 0.365-0.570 B 3 Σ u → X 3 Σ - g 1572,1573 120,121 0.3712 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,8) 6778,6779 1599 0.3807 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,9) 6778,6779 1599 0.3907 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,10) 6778,6779 1599 0.4011 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,11) 6778,6779 1599 0.4119 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,12) 6778,6779 1599 0.4233 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,13) 6778,6779 1599 0.4352 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,14) 6778,6779 1599 0.4477 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,15) 6778,6779 1599 0.4538 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4544 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4557 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4563 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4608 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,16) 6778,6779 1599 0.4671 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4677 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4690 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4697 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4745 B 3 Σ - u → X 3 Σ - g (v',v'') = (2,17) 6778,6779 1599 0.4810 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4816 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. S 2 0.4830 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4838 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4920 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 0.4950 B 3 Σ - u → X 3 Σ - g 6779,6780 1524 1.0860 1 Σ + g → X 3 Σ - g 1574 122 1.0915 1 Σ + g → X 3 Σ - g 122 1.0917 1 Σ + g → X 3 Σ - g 122 1.0920 1 Σ + g → X 3 Σ - g 122 1.0923 1 Σ + g → X 3 Σ - g 122 1.0941 1 Σ + g → X 3 Σ - g 122 1.0946 1 Σ + g → X 3 Σ - g 122 1.0990 1 Σ + g → X 3 Σ - g 122 1.1000 1 Σ + g → X 3 Σ - g 122 1.1587 1 Σ + g → X 3 Σ - g 122 Se 2 0.3869757 BO + u → XO + g (v',v'') = (11,7) R(10) 6781 1601 0.3870360 BO + u → XO + g (v',v'') = (11,7) P(12) 6781 1601 0.3925932 BO + u → XO + g (v',v'') = (11,8) R(10) 6781 1601 0.3926552 BO + u → XO + g (v',v'') = (11,8) P(12) 6781 1601 0.3983450 BO + u → XO + g (v',v'') = (11,9) R(10) 6781 1601 0.3984086 BO + u → XO + g (v',v'') = (11,9) P(12) 6781 1601 0.4042357 BO + u → XO + g (v',v'') = (11,10) R(10) 6781 1601 0.4043010 BO + u → XO + g (v',v'') = (11,10) P(12) 6781 1601 0.4164526 BO + u → XO + g (v',v'') = (11,12) R(10) 6781 1601 0.4165214 BO + u → XO + g (v',v'') = (11,12) P(12) 6781 1601 0.4227890 BO + u → XO + g (v',v'') = (11,13) R(10) 6781 1601 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Se 2 0.4228597 BO + u → XO + g (v',v'') = (11,13) P(12) 6781 1601 0.4359310 BO + u → XO + g (v',v'') = (11,15) R(10) 6781 1601 0.4360198 BO + u → XO + g (v',v'') = (11,15) P(12) 6781 1601 0.4427765 BO + u → XO + g (v',v'') = (11,16) R(10) 6781 1601 0.4428531 BO + u → XO + g (v',v'') = (11,16) P(12) 6781 1601 0.4569772 BO + u → XO + g (v',v'') = (11,18) R(10) 6781 1601 0.4570582 BO + u → XO + g (v',v'') = (11,18) P(12) 6781 1601 0.4643593 BO + u → XO + g (v',v'') = (11,19) R(10) 6781 1601 0.4644427 BO + u → XO + g (v',v'') = (11,19) P(12) 6781 1601 0.4719389 BO + u → XO + g (v',v'') = (11,20) R(10) 6781 1601 0.4720249 BO + u → XO + g (v',v'') = (11,20) P(12) 6781 1601 0.4797236 BO + u → XO + g (v',v'') = (11,21) R(10) 6781 1601 0.4798120 BO + u → XO + g (v',v'') = (11,21) P(12) 6781 1601 0.4877210 BO + u → XO + g (v',v'') = (11,22) R(10) 6781 1601 0.4878120 BO + u → XO + g (v',v'') = (11,22) P(12) 6781 1601 0.4959397 BO + u → XO + g (v',v'') = (11,23) R(10) 6781 1601 0.4960333 BO + u → XO + g (v',v'') = (11,23) P(12) 6781 1601 0.5043880 BO + u → XO + g (v',v'') = (11,24) R(10) 6781 1601 0.5044847 BO + u → XO + g (v',v'') = (11,24) P(12) 6781 1601 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Se 2 0.5130754 BO + u → XO + g (v',v'') = (11,25) R(10) 6781 1601 0.5131750 BO + u → XO + g (v',v'') = (11,25) P(12) 6781 1601 0.5220119 BO + u → XO + g (v',v'') = (11,26) R(10) 6781 1601 0.5221138 BO + u → XO + g (v',v'') = (11,26) P(12) 6781 1601 0.5312057 BO + u → XO + g (v',v'') = (11,27) R(10) 6781 1601 0.5313116 BO + u → XO + g (v',v'') = (11,27) P(12) 6781 1601 0.5387 BO + u → XO + g 6783 1601 0.5406689 BO + u → XO + g (v',v'') = (11,28) R(10) 6781 1601 0.5407782 BO + u → XO + g (v',v'') = (11,28) P(12) 6781 1601 0.5504125 BO + u → XO + g (v',v'') = (11,29) R(10) 6781 1601 0.5505254 BO + u → XO + g (v',v'') = (11,29) P(12) 6781 1601 0.5604483 BO + u → XO + g (v',v'') = (11,30) R(10) 6781 1601 0.5605648 BO + u → XO + g (v',v'') = (11,30) P(12) 6781 1601 0.5685 BO + u → XO + g 6783 1601 0.5707882 BO + u → XO + g (v',v'') = (11,31) R(10) 6781 1601 0.5709091 BO + u → XO + g (v',v'') = (11,31) P(12) 6781 1601 0.5788 BO + u → XO + g 6783 1601 0.5814462 BO + u → XO + g (v',v'') = (11,32) R(10) 6781 1601 0.5815369 BO + u → XO + g (v',v'') = (11,32) P(12) 6781 1601 0.5924350 BO + u → XO + g (v',v'') = (11,33) R(10) 6781 1601 0.5925637 BO + u → XO + g (v',v'') = (11,33) P(12) 6781 1601 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Se 2 0.6037695 BO + u → XO + g (v',v'') = (11,34) R(10) 6781 1601 0.6039026 BO + u → XO + g (v',v'') = (11,34) P(12) 6781 1601 0.6124 BO + u → XO + g 6783 1601 0.6154650 BO + u → XO + g (v',v'') = (11,35) R(10) 6781 1601 0.6156027 BO + u → XO + g (v',v'') = (11,35) P(12) 6781 1601 0.6241 BO + u → XO + g 6783 1601 0.6275378 BO + u → XO + g (v',v'') = (11,36) R(10) 6781 1601 0.6276804 BO + u → XO + g (v',v'') = (11,36) P(12) 6781 1601 0.6400050 BO + u → XO + g (v',v'') = (11,37) R(10) 6781 1601 0.6401526 BO + u → XO + g (v',v'') = (11,37) P(12) 6781 1601 0.6528847 BO + u → XO + g (v',v'') = (11,38) R(10) 6781 1601 0.6530380 BO + u → XO + g (v',v'') = (11,38) P(12) 6781 1601 0.6661968 BO + u → XO + g (v',v'') = (11,39) R(10) 6781 1601 0.6663315 BO + u → XO + g (v',v'') = (11,39) P(12) 6781 1601 0.6748596 BO + u → XO + g (v',v'') = (13,41) R(52) 6784 1601 0.6756099 BO + u → XO + g (v',v'') = (13,41) P(54) 6784 1601 0.6799589 BO + u → XO + g (v',v'') = (11,50) R(10) 6781 1601 0.6801233 BO + u → XO + g (v',v'') = (11,40) P(12) 6781 1601 0.6887340 BO + u → XO + g (v',v'') = (13,42) R(52) 6781 1601 0.6895119 BO + u → XO + g (v',v'') = (13,42) P(54) 6781 1601 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Se 2 0.6941961 BO + u → XO + g (v',v'') = (11,41) R(10) 6781 1601 0.6943668 BO + u → XO + g (v',v'') = (11,41) P(12) 6781 1601 0.7089295 BO + u → XO + g (v',v'') = (11,42) R(10) 6781 1601 0.7091069 BO + u → XO + g (v',v'') = (11,42) P(12) 6781 1601 SO 0.300-0.350 B 3 ∑ - (v'=0) → X 3 ∑ - (v"=8-11) 6910 1777 Te 2 0.5571 B(O + u ) → X(O + g ) 1575 48 0.5575 B(O + u ) → X(O + g ) 1575 48 0.5578 B(O + u ) → X(O + g ) 1575 48 0.5579 B(O + u ) → X(O + g ) 1575 48 0.5626 B(O + u ) → X(O + g ) 1575 48 0.5638 B(O + u ) → X(O + g ) 1575 48 0.5642 B(O + u ) → X(O + g ) 1575 48 0.5643 B(O + u ) → X(O + g ) 1575 48 0.5646 B(O + u ) → X(O + g ) 1575 48 0.5647 B(O + u ) → X(O + g ) 1575 48 0.5649 B(O + u ) → X(O + g ) 1575 48 0.5650 B(O + u ) → X(O + g ) 1575 48 0.5696 B(O + u ) → X(O + g ) 1575 48 0.5701 B(O + u ) → X(O + g ) 1575 48 0.5711 B(O + u ) → X(O + g ) 1575 48 0.5714 B(O + u ) → X(O + g ) 1575 48 0.5715 B(O + u ) → X(O + g ) 1575 48 0.5719 B(O + u ) → X(O + g ) 1575 48 0.5720 B(O + u ) → X(O + g ) 1575 48 0.5721 B(O + u ) → X(O + g ) 1575 48 0.5721 B(O + u ) → X(O + g ) 1575 48 0.5724 B(O + u ) → X(O + g ) 1575 48 0.57284 BO + u → XO + g (v',v'') = (16,31) R(36) 6795 1602 0.5766 B(O + u ) → X(O + g ) 1575 48 0.5767 B(O + u ) → X(O + g ) 1575 48 0.5773 B(O + u ) → X(O + g ) 1575 48 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Te 2 0.5774 B(O + u ) → X(O + g ) 1575 48 0.5780 B(O + u ) → X(O + g ) 1575 48 0.5783 B(O + u ) → X(O + g ) 1575 48 0.5784 B(O + u ) → X(O + g ) 1575 48 0.5785 B(O + u ) → X(O + g ) 1575 48 0.5787 B(O + u ) → X(O + g ) 1575 48 0.5789 B(O + u ) → X(O + g ) 1575 48 0.5790 B(O + u ) → X(O + g ) 1575 48 0.5793 B(O + u ) → X(O + g ) 1575 48 0.5794 B(O + u ) → X(O + g ) 1575 48 0.5797 B(O + u ) → X(O + g ) 1575 48 0.5798 B(O + u ) → X(O + g ) 1575 48 0.57989 BO + u → XO + g (v',v'') = (16,32) R(36) 6795 1602 0.58008 BO + u → XO + g (v',v'') = (16,32) P(38) 6795 1602 0.5841 B(O + u ) → X(O + g ) 1575 48 0.5849 B(O + u ) → X(O + g ) 1575 48 0.5857 B(O + u ) → X(O + g ) 1575 48 0.5859 B(O + u ) → X(O + g ) 1575 48 0.5865 B(O + u ) → X(O + g ) 1575 48 0.5869 B(O + u ) → X(O + g ) 1575 48 0.5870 B(O + u ) → X(O + g ) 1575 48 0.5874 B(O + u ) → X(O + g ) 1575 48 0.5924 B(O + u ) → X(O + g ) 1575 48 0.5927 B(O + u ) → X(O + g ) 1575 48 0.5934 B(O + u ) → X(O + g ) 1575 48 0.5936 B(O + u ) → X(O + g ) 1575 48 0.6002 B(O + u ) → X(O + g ) 1575 48 0.6004 B(O + u ) → X(O + g ) 1575 48 0.6005 B(O + u ) → X(O + g ) 1575 48 0.6008 B(O + u ) → X(O + g ) 1575 48 0.6009 B(O + u ) → X(O + g ) 1575 48 0.60190 BO + u → XO + g (v',v'') = (16,35) R(36) 6795 1602 0.60210 BO + u → XO + g (v',v'') = (16,35) P(38) 6795 1602 0.6082 B(O + u ) → X(O + g ) 1575 48 0.6083 B(O + u ) → X(O + g ) 1575 48 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Te 2 0.6085 B(O + u ) → X(O + g ) 1575 48 0.6087 B(O + u ) → X(O + g ) 1575 48 0.6089 B(O + u ) → X(O + g ) 1575 48 0.6162 B(O + u ) → X(O + g ) 1575 48 0.6165 B(O + u ) → X(O + g ) 1575 48 0.6168 B(O + u ) → X(O + g ) 1575 48 0.6170 B(O + u ) → X(O + g ) 1575 48 0.6204 B(O + u ) → X(O + g ) 1575 48 0.62524 BO + u → XO + g (v',v'') = (16,38) R(36) 6795 1602 0.62545 BO + u → XO + g (v',v'') = (16,38) P(38) 6795 1602 0.6278 B(O + u ) → X(O + g ) 1575 48 0.6287 B(O + u ) → X(O + g ) 1575 48 0.6288 B(O + u ) → X(O + g ) 1575 48 0.6295 B(O + u ) → X(O + g ) 1575 48 0.63334 BO + u → XO + g (v',v'') = (16,39) R(36) 6795 1602 0.63355 BO + u → XO + g (v',v'') = (16,39) P(38) 6795 1602 0.6371 B(O + u ) → X(O + g ) 1575 48 0.6379 B(O + u ) → X(O + g ) 1575 48 0.6381 B(O + u ) → X(O + g ) 1575 48 0.6388 B(O + u ) → X(O + g ) 1575 48 0.6477 B(O + u ) → X(O + g ) 1575 48 0.6484 B(O + u ) → X(O + g ) 1575 48 0.6561 B(O + u ) → X(O + g ) 1575 48 0.6574 B(O + u ) → X(O + g ) 1575 48 0.6581 B(O + u ) → X(O + g ) 1575 48 0.66740 BO + u → XO + g (v',v'') = (16,43) R(36) 6795 1602 0.66764 BO + u → XO + g (v',v'') = (16,43) P(38) 6795 1602 0.71414 BO + u → XO + g (v',v'') = (16,48) R(36) 6795 1602 0.71441 BO + u → XO + g (v',v'') = (16,48) P(38) 6795 1602 0.72410 BO + u → XO + g (v',v'') = (16,49) R(36) 6795 1602 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. Te 2 0.72437 BO + u → XO + g (v',v'') = (16,49) P(38) 6795 1602 0.73427 BO + u → XO + g (v',v'') = (16,50) R(36) 6795 1602 0.73454 BO + u → XO + g (v',v'') = (16,50) P(38) 6795 1602 0.74466 BO + u → XO + g (v',v'') = (16,51) R(36) 6795 1602 0.74494 BO + u → XO + g (v',v'') = (16,51) P(38) 6795 1602 128 Te 2 0.55374 BO + u → XO + g (v',v'') = (16,28) R(56) 6798 1602 0.55400 BO + u → XO + g (v',v'') = (16,28) P(58) 6798 1602 0.57434 BO + u → XO + g (v',v'') = (16,31) R(56) 6798 1602 0.57462 BO + u → XO + g (v',v'') = (16,31) P(58) 6798 1602 0.60372 BO + u → XO + g (v',v'') = (16,35) R(56) 6798 1602 0.60403 BO + u → XO + g (v',v'') = (16,35) P(58) 6798 1602 0.62733 BO + u → XO + g (v',v'') = (16,38) R(56) 6798 1602 0.62766 BO + u → XO + g (v',v'') = (16,38) P(58) 6798 1602 0.63552 BO + u → XO + g (v',v'') = (16,39) R(56) 6798 1602 0.63586 BO + u → XO + g (v',v'') = (16,39) P(58) 6798 1602 0.67001 BO + u → XO + g (v',v'') = (16,43) R(56) 6798 1602 0.67038 BO + u → XO + g (v',v'') = (16,43) P(58) 6798 1602 0.71737 BO + u → XO + g (v',v'') = (16,48) R(56) 6798 1602 0.71780 BO + u → XO + g (v',v'') = (16,48) P(58) 6798 1602 Table 3.3.1.1—continued Diatomic Electronic Transition Lasers Species Wavelength ( m) Transition assignment Comments References © 2001 CRC Press LLC. 128 Te 2 0.72746 BO + u → XO + g (v',v'') = (16,49) R(56) 6798 1602 0.72790 BO + u → XO + g (v',v'') = (16,49) P(58) 6798 1602 0.73777 BO + u → XO + g (v',v'') = (16,50) R(56) 6798 1602 0.73822 BO + u → XO + g (v',v'') = (16,50) P(58) 6798 1602 130 Te 2 0.46075 BO + u → XO + g (v',v'') = (16,12) R(36) 6785 1602 0.46087 BO + u → XO + g (v',v'') = (16,12) P(38) 6785 1602 0.46576 BO + u → XO + g (v',v'') = (16,13) R(36) 6785 1602 0.46588 BO + u → XO + g (v',v'') = (16,13) P(38) 6785 1602 0.47085 BO + u → XO + g (v',v'') = (16,14) R(36) 6785 1602 0.47098 BO + u → XO + g (v',v'') = (16,14) P(38) 6785 1602 0.47603 BO + u → XO + g (v',v'') = (16,15) R(36) 6785 1602 0.47616 BO + u → XO + g (v',v'') = (16,15) P(38) 6785 1602 0.48130 BO + u → XO + g (v',v'') = (16,16) R(36) 6785 1602 0.48143 BO + u → XO + g (v',v'') = (16,16) P(38) 6785 1602 0.48667 BO + u → XO + g (v',v'') = (16,17) R(36) 6785 1602 0.48680 BO + u → XO + g (v',v'') = (16,17) P(38) 6785 1602 0.49212 BO + u → XO + g (v',v'') = (16,18) R(36) 6785 1602 0.49226 BO + u → XO + g (v',v'') = (16,18) P(38) 6785 1602 0.49768 BO + u → XO + g (v',v'') = (16,19) R(36) 6785 1602 [...]... 1922.98282 v = 6 → 5 Band P(22) 160 6, 161 0 5.2004 561 1922.908 26 v = 12 → 11 Band R(21) 5.2034475 1921.80281 v = 8 → 7 Band P(10) 160 6– 160 9 5.20475 46 1921.32019 v = 5 → 4 Band P(28) 160 6, 161 5 ©2001 CRC Press LLC 160 6, 161 0 160 6– 160 8, 161 0 160 6 160 6 160 7, 161 5 160 6 160 7 160 6, 161 0 160 6 160 6– 160 9, 161 2 160 6, 161 0 160 6, 160 7, 160 9 160 6 160 6 160 6, 160 7, 160 9 160 6 160 6 160 6 160 6 12 C 16 O Wavelength ( m) vac Frequency (cm -1)... R(21) 160 6 5.1315553 1948.7 269 5 v = 6 → 5 Band P( 16) ©2001 CRC Press LLC 160 6 160 6, 160 7, 160 9 160 6– 160 8 160 6 160 6, 160 7, 160 9 160 7, 161 5 160 6 160 6 160 6, 161 5 160 6 160 6, 160 7, 160 9 160 6, 161 5 160 6– 160 9 160 6– 160 8, 161 0 12 C 16 O Wavelength ( m) vac Frequency (cm -1) Laser—continued Transition assignment Comments 5.132 367 5 1948.41853 v = 5 → 4 Band P(22) 5.13294 76 1948.198 36 v = 3 → 2 Band P(33) 160 6 5.1347 561 1947.512 16. .. 160 6 5.084 166 9 1 966 .89059 v = 7 → 6 Band P(5) 5.0 868 566 1 965 .850 56 v = 5 → 4 Band P(18) 160 6, 160 8, 161 0 5.0884403 1 965 .23874 v = 6 → 5 Band P(12) 160 6– 160 9 5.0920025 1 963 . 863 91 v = 9 → 8 Band R(8) 160 6, 161 5 5.09402 86 1 963 .08282 v = 7 → 6 Band P (6) 160 7 5.0953848 1 962 . 560 33 v = 3 → 2 Band P(30) 160 6 5.0 968 272 1 962 .00493 v = 10 → 9 Band R( 16) 160 6, 161 5 5.0980333 1 961 .54073 v = 5 → 4 Band P(19) 160 6, 161 0... 5.255 869 8 1902 .63 463 v = 5 → 4 Band P(32) 160 6 5.2577 460 1901.95571 v = 7 → 6 Band P(21) 160 6, 161 0 5.2582825 1901. 761 64 v = 8 → 7 Band P(15) 160 6–110 ,69 50 5. 261 3459 1900 .65 435 v = 6 → 5 Band P(27) 160 6, 161 0 5. 263 0398 1900.04 263 v = 9 → 8 Band P(9) 160 6– 160 9 5. 269 0174 1897.88707 v = 5 → 4 Band P(33) 160 6 5. 269 663 2 1897 .65 447 v = 8 → 7 Band P( 16) 160 6–110 ,69 50 5. 269 7594 1897 .61 982 v = 7 → 6 Band P(22) 160 6, 161 0... 1897 .61 982 v = 7 → 6 Band P(22) 160 6, 161 0 5.2737904 18 96. 169 39 v = 9 → 8 Band P(10) 160 6– 160 9 5.2739975 18 96. 09494 v = 6 → 5 Band P(28) 160 6, 161 0 5.2811843 1893.51 467 v = 8 → 7 Band P(17) 160 6–7, 161 0 ,69 50 5.2819 166 1893.25217 v = 7 → 6 Band P(23) 160 6, 161 0 5.28224 26 1893.1353 v = 10 → 9 Band P(4) 160 7 ©2001 CRC Press LLC 160 7 160 6 160 6–7, 161 0 ,69 50 160 6, 160 7 160 6 160 6, 160 7, 160 9 ... 5.057 467 6 1977.27417 v = 6 → 5 Band P(9) 5.0590728 19 76. 6 467 7 v = 3 → 2 Band P(27) 160 6 5. 064 8990 1974.37302 v = 5 → 4 Band P( 16) 160 6, 160 8 5. 066 0480 1973.92525 v = 4 → 3 Band P(22) 160 6 5. 067 663 9 1973.29583 v = 6 → 5 Band P(10) 160 6– 160 9 5.0710398 1971.98215 v = 3 → 2 Band P(28) 160 6 5.0758122 1970.12805 v = 5 → 4 Band P(17) 160 6, 160 8 5.0779878 1 969 .28397 v = 6 → 5 Band P(11) 160 6– 160 9 5.0831434 1 967 .2 866 2... 2038 .62 508 v = 3 → 2 Band P(13) 160 6, 160 7 ©2001 CRC Press LLC 160 6 160 6, 160 7 160 6 160 6, 160 7 160 6 160 6, 160 7 160 6, 161 5 160 6 160 6 160 6, 160 7 12 C 16 O Wavelength ( m) vac Frequency (cm -1) Laser—continued Transition assignment Comments 4.905 369 4 2038.58244 v = 2 → 1 Band P(19) 4.9088827 2037.12345 v = 4 → 3 Band P(7) 160 7, 161 5 4.9154339 2034.40840 v = 3 → 2 Band P(14) 160 6, 160 7 4.9 160 940 2034.13524 v = 2 → 1... P(10) 69 51 4.0550837 2 466 .04033 v = 37 → 35 Band P(11) 69 51 4. 060 668 4 2 462 .64 878 v = 37 → 35 Band P(12) 69 51 4. 066 3829 2459.18798 v = 37 → 35 Band P(13) 69 51 4.7451315 2107.42315 v = 1 → 0 Band P(9) 160 6 4.7545021 2103. 269 67 v = 1 → 0 Band P(10) 160 6 4. 763 9858 2099.08 266 v = 1 → 0 Band P(11) 160 6, 160 7 4.7735835 2094. 862 26 v = 1 → 0 Band P(12) 160 6, 160 7 4.7 768 927 2093.41107 v = 2 → 1 Band P (6) 160 6, 161 5... 2072.987 96 v = 2 → 1 Band P(11) 160 6, 160 7 4.83 361 05 2 068 .8 468 8 v = 1 → 0 Band P(18) 160 6 4.8337140 2 068 .80259 v = 2 → 1 Band P(12) 160 6, 160 7 4.8435908 2 064 .58398 v = 2 → 1 Band P(13) 160 6, 160 7 4.8440299 2 064 .3 968 6 v = 1 → 0 Band P(19) 160 6 4.8535 861 2 060 .33227 v = 2 → 1 Band P(14) 160 6 4.8545702 2059.91 461 v = 1 → 0 Band P(20) 160 6 4.8 562 333 2059.20912 v = 3 → 2 Band P(8) 4. 863 70 06 20 56. 04 761 v = 2... 5.043 462 3 1982. 764 89 v = 5 → 4 Band P(14) 160 6– 160 8 ©2001 CRC Press LLC 160 6 160 6 160 6, 160 7 160 6 160 6, 160 7 160 7 160 6 160 6, 160 7 160 7, 161 5 12 C 16 O Wavelength ( m) vac Frequency (cm -1) Laser—continued Transition assignment Comments 5.0472413 1981.28035 v = 3 → 2 Band P( 26) 5.0473980 1981.21884 v = 6 → 5 Band P(8) 5.0541 161 1978.58535 v = 5 → 4 Band P(15) 5.05 467 56 1978. 366 34 v = 4 → 3 Band P(21) 5.057 467 6 . XO + g (v',v'') = ( 16, 35) R( 56) 67 98 160 2 0 .60 403 BO + u → XO + g (v',v'') = ( 16, 35) P(58) 67 98 160 2 0 .62 733 BO + u → XO + g (v',v'') = ( 16, 38) R( 56) 67 98 160 2 0 .62 766 BO + u . XO + g (v',v'') = ( 16, 16) R( 36) 67 85 160 2 0.48143 BO + u → XO + g (v',v'') = ( 16, 16) P(38) 67 85 160 2 0.4 866 7 BO + u → XO + g (v',v'') = ( 16, 17) R( 36) 67 85 160 2 0.4 868 0 BO + u . XO + g (v',v'') = ( 16, 44) R( 36) 67 85 160 2 0 .67 661 BO + u → XO + g (v',v'') = ( 16, 44) P(38) 67 85 160 2 0 .68 813 BO + u → XO + g (v',v'') = (18, 46) R(172) 67 85 160 2 0 .68 9 26 BO + u