Table I
Index of Gases
Gas Liquid (l ) or gas (g ) at STP Name 1 C12 H3 F g Fluoromethane, methyl fluoride 2 C13 H3 F g Methyl fluoride (isotopically enriched) 3 CH3 CF3 g 1,1,1 Trifluoroethane 4 CH3 CHF2 g 1,1 Difluoroethane, ethylidene fluoride 5 CH3 CH2 F g Fluoroethane, ethyl fluoride 6 CH3 CCH g Propyne, methylacetylene, propine 7 CH3 OCH3 g Dimethyl ether, methoxy-methane, methyl ether 8 CH3 OH l Methanol, carbinol, methyl alcohol, wood alcohol 9 CH3 OD l Methanol-d, O-deuteromethanol 10 CD3 OD l Methan-d3 -ol-d, deuteroxy trideutero-methane, tetradeuteromethanol 11 CH3 CN l Nitrile acetic acid, acetonitrile, cyanomethane, ethanenitrile, methyl cyanide 12 CH3 NH2 g Aminomethane, methylamine 13 CH3 Cl g Chloromethane, methyl chloride 14 CH3 Br l Bromomethane, methyl bromide 15 CH3 I l Iodomethane, methyl iodide 16 HCOOH l Formic acid, methanoic acid 17 CH2 Cl2 l Dichloromethane, methylene chloride 18 CH2 CHCN l Nitrile propenoic acid, acrylonitrile, vinyl cyanide 19 CH2 CF2 g 1,1 Difluoroethene, vinylidine fluoride 20 CH2 CHCl g Chloroethene, vinyl chloride 21 C2 H4 (OH)2 l 1,2 Ethanediol, dihydroxy-ethane, ethylene glycol, glycol. HOCH2 CH2 OH 22 C2 H5 OH l Ethanol, alcohol, ethyl alcohol, methyl carbinol 23 C2 H5 Cl l Chloroethane, ethyl chloride 24 NH3 g Ammonia 25 O3 g Ozone 26 D2 O l Deuterium oxide, heavy water
Table II
Submillimeter Laser Wavelengths Listed by Gases
λ (μ m) CO2 line Pol. CO2 source Win mWout Ref. C12 H3 F (1) 190.3 9P30 — T — — 4 192.78 10R32 // C 55 4.7 3 195.0 9R42 — T — — 4 199.14 10R32 // C — — 3 200.3 9R40 — T — — 4 215.3 9R36 — T — — 4 251.91 10R34 // C 83 0.17 3 372.68 9P50 // C 14 5.8 3 397.51 9P50 // C — — 3 419 9P20 — T 10 MW 0.1 kW 16 ,25 451.903 9P20 ⊥ Q 1.5 kW <0.1 W 1 ,2 451.924 9P20 ⊥ Q 1.5 kW <0.1 W 1 ,2 496.072 9P20 ⊥ Q 1.5 kW <0.1 W 1 C 10–20 1 2 496.105 9P20 ⊥ Q 1.5 kW 0.1 W 1 C 50 13 3 T 10 MW 10 kW 31 ,32 CW 7.6 3.0 20 541.113 9P20 ⊥ Q 1.5 kW <0.1 1 ,2 541.147 9P20 ⊥ Q 1.5 kW <0.1 1 ,2 595 9P20 — T 10 MW — 16 C13 H3 F (2) 1221.79 9P32 // C 58 2.4 3 CH3 CF3 (3) 379 10P32 — T — — 4 CH3 CHF2 (4) 458 10P20 — CW 9.7 St 10 464 10P20 — T — — 4 533 10P20 — CW 9.7 St 10 755 10P14 — T — — 4 CH3 CH2 F (5) 206.60 10P36 — C 100–150 — 6 217.1 9R14 — C 100–150 — 6 226.9 10P40 — C 100–150 — 6 264.0 9P18 — CW ≤25 0.015 22 264.7 9P18 — C 100–150 — 6 282.3 9R12 — C 100–150 — 6 330.2 9R22 — C 100–150 — 6 336 9R16 — CW ≤25 3 μ W 22 336.7 9R16 — C 100–150 — 6 362.1 9R18 — C 100–150 — 6 376.0 9R14 — C 100–150 — 6 378.0 9R32 — C 100–150 — 6 404 9R30 — CW ≤25 0.01 22 404 9R34 — C 100–150 — 6 405.0 9P34 — CW ≤25 0.3 μ W 22 405.50 9R30 — C 100–150 — 6 462.92 9P32 — C 100–150 — 6 486 9R24 — CW ≤25 5 μ W 22 502.2 9R24 — C 100–150 — 6 504 9R24 — CW ≤25 0.015 22 519 9R4 — CW ≤25 1 μ W 22 540.9 9P38 — C 100–150 — 6 593.32 9P36 — C 100–150 — 6 595 9P36 — CW ≤25 2 μ W 22 620 9P22 — CW ≤25 1 μ W 22 620.4 9P22 — C 100–150 6 851.9 9P30 — C 100–150 — 6 853 9P30 — CW ≤25 2 μ W 22 1013 9P28 — CW ≤25 0.1 μ W 22 1069 9R10 — CW ≤25 3 μ W 22 1546 9P10 — CW ≤25 3 μ W 22 CH3 CCH (6) 427.89 10P10 // C 93 3 μ W 3 428.87 9R38 // C 20 0.012 30 488.88 10P12 // C 67 0.06 3 516.77 9R12 // C 47 6 μ W 30 531.08 9P6 // C 45 4 μ W 30 563.13 10P24 // C 108 9 μ W 3 566.44 9P18 // C 63 0.58 30 583.77 9P20 // C 50 4 μ W 30 647.89 10P14 // C 100 3.3 3 649.59 10P34 ⊥ C 92 0.9 μ W 3 675.29 9P40 // C 55 0.33 30 757.41 10P10 // C 92 3 μ W 3 798.55 10P20 // C 100 0.013 3 1097.11 9P8 // C 50 0.32 30 1174.87 10P44 // C 35 2.7 3 CH3 OCH3 (7) 375 10P20 // C ≤100 1–5 8 461 10P34 ⊥ C ≤100 <1 8 480 10P34 ⊥ C ≤100 <1 8 492 10P34 ⊥ C ≤100 ≥10 8 495 10P12 // C ≤100 <1 8 520 10P12 // C ≤100 ≥10 8 CH3 OH (8) 37.5 9P32 — CW 3.7 0.5 10 40.2 9P34 — CW 3.5 ~1 10 41.7 9P32 — CW 3.7 4 10 43.4 9P34 — CW 3.5 ~0.1 10 58.1 9P14 — T 0.2–1 MW 2 W 19 65.1 9R18 — T 0.2–1 MW 5 W 19 65.6 9P34 — CW 3.5 0.5 10 70.6 9P34 ⊥ C 10–20 0.5 2 ,27 CW 3.5 2 10 C ≤16 0.012 24 CW 4 >1 9 78 10R16 — C 10 0.2 28 80.3 9P34 — CW 3.5 0.2 10 96 9R10 CW ≤25 0.6 22 // CW ≤3 St 29 96.48 9R10 — C 100–150 — 6 98 10R40 — C 10 0.03 28 118.8 9P36 ⊥ C 10–20 3 2 ,27 CW 3.0 3 10 C ≤16 0.9 24 CW 4 >1 9 121 10R44 — C 9 0.01 28 130 10R34 ⊥ CW ≤3 Med 29 151.35 9R26 — C 100–150 — 6 162 10R38 — CW ≤25 0.6 22 ,27 163 10R38 — C 10 0.3 28 163.01 10R34 — C 100–150 — 6 163.9 9P12 — T — — 4 164 10R38 // CW 5 0.5 14 164.3 9P16 ⊥ C 10–20 1 2 165 9R10 ⊥ CW ≤3 Med 29 165 9P14 — C 5 0.03 28 170.6 9P36 // C 10–20 3 2 ,27 CW 4 0.3 10 185.5 9P34 ⊥ C 10–20 0.1 2 186.03 9R18 — C 100–150 — 6 190.8 9P34 ⊥ C 10–20 0.1 2 191.2 10R4 — C 100–150 — 6 191.57 10R10 — C 100–150 — 6 191.63 9R16 — C 100–150 — 6 193.2 9P38 ⊥ C 10–20 0.1 2 CW 4.0 Wk 10 C ≤16 0.04 24 193.8 9P38 — CW 4 Wk 10 198.8 9P38 ⊥ C 10–20 0.5 2 202.4 9P36 // C 10–20 1 2 205.3 9P18 — T — — 4 211 10R4 — C 10 0.3 28 223.5 9P16 // C 10–20 1 2 232 9R10 — CW ≤25 0.03 22 ,27 232.93 9R8 — C 100–150 — 6 ,27 233 9R10 // CW ≤3 St 29 237.6 9P34 // C 10–20 0.5 2 242 10R34 — C 10 0.3 28 242.79 10R32 — C 100–150 — 6 243 10R34 — CW ≤3 Wk 29 246 10R38 ⊥ CW 5 1.0 14 249 10R34 — CW ≤25 0.2 22 ,27 251 10R44 — C 9 0.01 28 ,27 253.6 9P34 // C 10–20 0.5 2 254 10R38 — CW ≤25 0.6 22 254.1 9P34 // C 10–20 1 2 263.7 9P34 // C 10–20 1 2 264.6 9P34 // C 10–20 1 2 274 10R46 — C 8 0.03 28 278.8 9P38 // C 10–20 0.1 2 286 10R48 — C 7 1 28 292 10R10 — CW ≤25 0.03 22 292.2 9P38 // C 10–20 0.1 2 292.5 9P34 ⊥ C 10–20 0.1 2 369.1 9P16 // C 10–20 3 2 ,27 392.3 9P36 ⊥ C 10–20 3 2 ,27 CW 4.0 St 10 417 9P14 — C 5 0.01 28 417.8 9P36 ⊥ C 10–20 1 2 451.9 9P12 — T 0.2–1 MW 0.7 W 19 469 10R38 — C 10 0.06 28 ,27 470 10R38 ⊥ CW 5 0.1 14 471 10R38 — CW ≤25 0.2 22 495 10R4 — C 10 0.01 28 570.5 9P16 // C 10–20 3 2 ,27 CW 5.0 1 10 T 0.2–1 MW 1 W 19 627.34 9P16 — C 100–150 — 6 694 10R16 — C 10 0.01 28 699.5 9P34 ⊥ C 10–20 0.1 2 ,27 CW 3.5 0.5 10 1217 9P16 C 5 0.01 28 // C 3 0.1 11 CH3 OD (9) 57 9R8 ⊥ CW ≤3 St 29 104 9P30 ⊥ CW ≤3 Med 29 110 10R44 ⊥ CW ≤3 Wk 29 117 9P26 // CW ≤3 Med 29 146 9P30 ⊥ CW ≤3 Wk 29 216 9R14 ⊥ CW ≤3 Wk 29 295 9R8 ⊥ CW ≤3 St 29 307 9R8 ⊥ CW ≤3 St 29 CD3 OD (10) 41 10R18 ⊥ CW 3 — 23 184 10R24 ⊥ CW 3 — 23 229 10R10 ⊥ CW 3 — 23 255 10R36 ⊥ CW 3 — 23 299 10R24 ⊥ CW 3 — 23 312 10R10 ⊥ CW 3 — 23 339 10R4 ⊥ CW 3 — 23 406 10R12 ⊥ CW 3 — 23 CH3 CN (11) 281.18 9P34 ⊥ C 44 0.018 30 281.98 9P50 // C 38 0.67 30 286.88 9P50 // C 38 0.29 30 303.54 10P10 // C 68 3 μ W 3 346.32 9P16 // C 70 0.45 30 372.87 10P20 // C 84 3.54 3 373 10P20 — T 2 MW 80 μ W 17 CW ≤25 0.01 22 380.71 10P16 // C 88 7 μ W 3 386.41 9P46 // C 42 3 μ W 30 387.31 9R12 ⊥ C 44 0.38 30 388.39 9P22 // C 69 5 μ W 30 392 9R12 — CW ≤25 0.5 μ W 22 422.14 10P24 // C 110 0.017 3 427.04 9P26 ⊥ C 61 0.024 30 430.55 10P18 // C 46 0.19 3 441.15 9R16 ⊥ C 43 0.18 30 453.41 9R16 ⊥ C 43 0.75 30 456 9R16 — CW ≤25 4 μ W 22 466.25 9R16 ⊥ C 43 0.56 30 480.01 9R16 ⊥ C 43 0.2 30 494.74 9P6 ⊥ C 51 4.0 30 496 9P6 — CW ≤25 6 μ W 22 510.16 9P6 ⊥ C 51 0.19 30 561.41 9R8 // C 42 0.18 30 652.68 9P30 // C 77 0.32 30 653 9P30 — CW ≤25 0.05 μ W 22 704.53 9R34 // C 41 0.12 30 713.72 10P32 // C 44 0.68 3 741.62 9R8 ⊥ C 48 0.23 30 854.41 9P16 // C 70 0.13 30 1014.89 9R14 ⊥ C 43 0.018 30 1016.33 9P8 // C 33 0.45 30 1086.89 9P40 ⊥ C 46 0.15 30 1164.83 9P10 // C 45 0.05 30 1351.78 9R20 ⊥ C 49 0.02 30 1814.37 10P46 // C 48 0.34 3 CH3 NH2 (12) 99.5 9R14 // C ≤100 <1 8 104 9P28 ⊥ C ≤100 <1 8 115.5 9P44 // C ≤100 1–5 8 118 9P8 ⊥ C ≤100 <1 8 126 10R6 ⊥ C ≤100 1–5 8 134 9R14 ⊥ C ≤100 <1 8 134 9R18 ⊥ C ≤100 <1 8 139 9R14 ⊥ C ≤100 <1 8 141 10R22 ⊥ C ≤100 <1 8 143 9R14 // C ≤100 <1 8 147 9P24 ⊥ C ≤100 5–10 8 148.5 9P24 ⊥ CW 4–10 10.0 5 153 9P8 // C ≤100 1–5 8 159 9P24 ⊥ C ≤100 1–5 8 164 9R18 // C ≤100 1–5 8 166 9P32 ⊥ C ≤100 1–5 8 168 9R22 // C ≤100 <1 8 175 10R6 // C ≤100 <1 8 176 10R32 ⊥ C ≤100 1–5 8 177 9R12 // C ≤100 1–5 8 180 9P46 — CW ≤25 0.1 μ W 22 183 9R14 ⊥ C ≤100 1–5 8 194 9R8 // C ≤100 <1 8 198.0 9P24 // CW 4–10 1.0 5 198 9R20 // C ≤100 <1 8 201 9R12 // C ≤100 <1 8 208 9R12 // C ≤100 1–5 8 218.0 9P24 If CW 4–10 1.0 5 C ≤100 <1 8 219 9P32 // C ≤100 1–5 8 243 9P24 // C ≤100 1–5 8 251.3 9P4 // CW 4–10 0.30 5 267 9P40 // C ≤100 1–5 8 268 9R12 ⊥ C ≤100 1–5 8 288 9R4 — CW ≤25 0.015 22 314 9R4 — CW ≤25 0.03 22 347 10R20 // C ≤100 1–5 8 CH3 Cl (13) 227.15 9P48 // C 26 0.072 30 236.25 9R2 ⊥ C 13 0.1 30 240.98 10P10 // C 90 1.3 30 250.4 9P30 — T — — 4 254 10P10 — CW ≤40 0.1 26 261.03 10P34 // C 106 0.069 30 271.29 10P20 ⊥ C 86 0.33 30 273.7 9P12 — T — — 4 275.00 9R14 // C 44 1.7 30 275.09 9R36 // C 60 0.05 30 281.67 9R14 — C 44 — 30 286.79 10R34 ⊥ C 69 0.31 30 307.65 11P19 // C 23 0.57 30 333 9P42 — T 2 MW 0.8 W 17 333.96 9P42 ⊥ C 47 44 30 349.34 10R18 // C 89 7.4 30 354 10R18 — CW ≤40 0.01 26 364.5 9R16 — T — — 4 378.57 9R16 ⊥ C 29 0.18 30 397.6 10R24 — T — — 4 461.20 9R42 ⊥ C 11 0.027 30 511.90 10R52 ⊥ C 17 0.065 30 568.81 10R26 // C 97 0.022 30 870.80 9P52 // C 16 1.3 30 943.97 9R12 // C 45 13 30 958.25 9P38 // C 40 0.52 30 968 9R12 — CW ≤20 0.01 26 1886.87 9P26 ⊥ C 57 1.6 30 CH3 Br (14) 245.04 9P28 // C 57 0.89 30 264.05 10R10 // C 73 5.3 30 279.81 10R52 // C 51 0.012 30 294.28 10R28 // C 117 1.1 30 311.07 10R12 ⊥ C 69 0.019 30 311.10 10P20 // C 52 1.0 30 311.20 10P40 ⊥ C 21 1.5 30 311.21 10R50 ⊥ C 15 0.33 30 332.86 10R6 ⊥ C 64 0.35 30 333.15 10P8 // C 83 9 μ W 30 352.75 9P18 ⊥ C 66 2.3 30 380.02 10R18 ⊥ C 83 7.0 30 407.72 9P28 // C 57 0.013 30 414.98 10R2 ⊥ C 46 17 30 418.31 10P26 // C 101 0.49 30 422.78 10R26 // C 117 9 μ W 30 508.48 10R42 // C 47 2.1 30 531.06 10P24 // C 108 5.5 30 545.21 10P38 ⊥ C 39 8.8 30 545.39 10R32 // C 63 10 30 564.68 10P38 — C 39 — 30 585.72 9P40 // C 49 3.3 30 631.93 10P16 // C 78 2.1 μ W 30 632.00 10P22 ⊥ C 88 0.025 30 658.53 9P56 // C 52 5.2 30 660.70 10R20 ⊥ C 68 15 30 715.40 10R14 ⊥ C 63 1.6 30 — 10R14 — T 2 MW 0.4 W 17 749.29 10P14 ⊥ C 73 2.8 30 749.36 10R14 ⊥ C 63 — 30 831.13 10P28 // C 105 5.4 30 925.52 10R46 // C 33 14 30 990.51 10P10 // C 95 1.3 30 1310.38 10R4 ⊥ C 90 5.3 30 1572.64 10P4 // C 58 2.2 30 1965.34 10P28 // C 105 1.3 30 CH3 I (15) 377.45 9R16 // C 47 5.1 30 378 9R14 — — — — 15 ,21 390.53 10P42 // C 57 1.8 30 392.48 9R14 // C 40 0.017 30 447.17 10P18 // C 103 23 30 447.5 10P18 — — — — 15 ,21 457.25 10P18 — C 103 — 30 459.18 10P8 ⊥ C 69 0.16 30 477.87 9P26 // C 82 0.021 30 508.37 9P34 // C 66 13 30 517.33 10P14 // C 81 0.38 30 525.32 9P4 // C 26 0.093 30 529.28 10P36 // C 60 3.2 30 542.99 10P26 // C 99 2 μ W 30 576.17 10P16 // C 58 1.6 30 578.90 10R34 // C 68 0.98 30 583.87 9P4 // C 32 0.12 30 639.73 9P6 // C 35 0.17 30 670.99 10P28 // C 91 0.93 30 719.30 10P22 // C 52 0.33 30 1063.29 10P38 // C 71 6.5 30 1253.67 10P32 // C 98 13 30 1254.4 10P32 — — — — 15 ,21 HCOOH (16) 229.39 9R32 — C 100–150 — 6 254.5 9P20 // CW ≤7 0.1 12 254.80 9P20 — C 100–150 — 6 278.5 9P30 // CW ≤7 0.02 12 278.61 9P30 — C 100–150 — 6 302.08 9P8 — C 100–150 — 6 303.0 9R2 // CW ≤7 0.6 12 309 10R22 // C ≤100 1–5 8 309.23 9R4 — C 100–150 — 6 311.0 10R22 // CW ≤7 0.2 12 311.45 10R22 — C 100–150 — 6 319.48 10R22 — C 100–150 — 6 334.82 9P18 — C 100–150 — 6 334.91 9R14 — C 100–150 — 6 336.3 9R12 // CW ≤7 0.04 12 342.74 9R14 — C 100–150 — 6 359.81 9R34 — C 100–150 — 6 368 9R18 — C ≤100 1–5 8 388 9R16 // C ≤100 ≥10 8 392 9R18 // C ≤100 1–5 8 393.5 9R14 // CW ≤7 0.3 12 393.6 9R18 — CW 7.6 0.93 20 393.62 9R18 — C 100–150 100 6 394.2 9R16 // CW ≤7 3.0 12 401 9R16 // C ≤100 1–5 8 403 9R18 // C ≤100 1–5 8 404.1 10R42 — C 100–150 — 6 405.0 9P26 // CW ≤7 0.01 12 405.55 9R18 — C 100–150 — 6 405.75 9P26 — C 100–150 — 6 406.0 9R16 // CW ≤7 1.0 12 413 9R16 // C ≤100 <1 8 414 9R22 // C ≤100 5–10 8 414 9R20 // C ≤100 1–5 8 418.51 9R24 — C 100–150 — 6 419.5 9R22 — CW 7.6 0.18 20 419.55 9R22 — C 100–150 — 6 420.0 9R18 // CW ≤7 1.5 12 420.26 9R8 — C 100–150 — 6 421.0 9R6 // CW ≤7 0.07 12 421 9R18 — C 100–150 — 6 428 9R18 // C ≤100 1–5 8 428 9R20 // C ≤100 ≥10 8 432.50 9R20 — C 100–150 — 6 CW 7.6 1.5 20 433.0 9R18 // CW ≤7 2.0 12 433.0 9R22 — CW ≤25 0.5 22 433.10 9R22 — C 100–150 — 6 435 9P16 — C ≤100 <1 8 437.6 9P16 ⊥ CW ≤7 0.08 12 437.70 9P16 — C 100–150 — 6 441 9R18 — C 100–150 <1 8 445.21 10P14 — C 100–150 — 6 445.81 9R20 — C 100–150 — 6 446.75 9R16 — C 100–150 — 6 447.0 9R14 // CW ≤7 0.1 12 447.58 9R22 — C 100–150 — 6 458.43 9R36 — C 100–150 — 6 458.6 9R34 // CW ≤7 0.4 12 460.51 9R10 — C 100–150 — 6 492 9P42 — C 100–150 — 6 493.28 9P14 — C 100–150 — 6 496 9R18 — C ≤100 <1 8 512 9R28 // C ≤100 ≥10 8 512 9R26 // C ≤100 5–10 8 512.88 9R28 — C 100–150 — 6 513.2 9R24 ⊥ CW ≤7 0.8 12 518.83 9P16 — C 100–150 — 6 530 9R28 // C ≤100 <1 8 530 9R26 // C ≤100 <1 8 534.5 9P18 // CW ≤7 0.02 12 534.8 9R24 // CW ≤7 0.3 12 577 9P38 — C ≤100 1–5 8 580.52 9P38 — C 100–150 — 6 582.0 9P38 ⊥ CW ≤7 0.02 12 670.0 9R26 // CW ≤7 0.2 12 743.0 9R36 // CW ≤7 0.5 12 745.0 9R20 // CW ≤7 0.2 12 761 9R24 — CW ≤25 0.5 μ W 22 785 9R10 — CW ≤25 0.01 22 CH2 Cl2 (17) 258 10P26 — CW ≤40 0.1 26 CH2 CHCN (18) 270.6 10P26 ⊥ CW 4–10 0.06 5 489 10P8 — CW ≤25 0.06 μ W 22 503 9R12 — CW ≤25 0.04 μ W 22 550.0 10P14 // CW 4–10 0.06 5 574.4 10R16 ⊥ CW 4–10 0.30 5 578 10R14 — CW ≤25 1 μ W 22 584.0 10P12 ⊥ CW 4–10 0.06 5 586.6 10P20 // CW 4–10 0.32 5 623 10R12 — CW ≤25 0.1 μ W 22 631 10R6 — CW ≤25 0.1 μ W 22 722 10P42 — CW ≤25 0.05 μ W 22 738 10P16 — CW ≤25 0.06 μ W 22 775 10R42 — CW ≤25 0.1 μ W 22 793 10R40 — CW ≤25 0.1 μ W 22 828 10R18 — CW ≤25 0.1 μ W 22 910 10R12 — CW ≤25 0.1 μ W 22 940 10P28 — CW ≤25 0.1 μ W 22 1156 10P26 — CW ≤25 0.06 μ W 22 1184 10R38 CW ≤25 0.6 μ W 22 CH2 CF2 (19) 288.5 10P12 // CW 4–10 0.30 5 ,13 375.0 10P12 // CW 4–10 1.60 5 ,13 415 10P14 — CW 7.5 St 10 458.0 10P30 // CW 4–10 0.20 5 ,13 464.3 10R20 // CW 4–10 0.30 5 ,13 523 10P16 — CW ≤25 0.01 22 554 10P14 — CW 6.0 1 10 554.4 10P14 ⊥ CW 4–10 3.00 5 ,13 568 10P24 — CW 7.5 St 10 663 10P24 — CW 7.5 Med 10 663.3 10P24 // CW 4–10 0.20 5 ,13 884 10P12 — CW 5.0 1 10 890.0 10P22 // CW 4–10 0.30 5 ,13 CW 8.0 0.1 10 890.1 10P22 // CW 4–10 0.20 5 ,13 990.0 10P22 // CW 4–10 0.20 5 ,13 CW 8.0 Wk 10 1020 10P14 — CW 6.0 0.05 10 CH2 CHCl (20) 386.0 10P22 ⊥ C 10–20 0.5 2 424 10R28 — CW ≤25 3 μ W 22 445 10R18 — CW ≤25 1 μ W 22 487 9P10 — CW ≤25 0.06 μ W 22 507.7 10P22 ⊥ C 10–20 1 2 519 10P34 — CW ≤25 0.4 μ W 22 532 9P16 — CW ≤25 1 μ W 22 538 10R4 — CW ≤25 0.1 μ W 22 574 10P16 — CW ≤25 0.015 22 603 10P38 — CW ≤25 0.025 22 634.4 9P20 // C 10–20 0.5 2 638 10P6 — CW ≤25 3 μ W 22 699 9P22 — CW ≤25 0.6 μ W 22 707 9P18 — CW ≤25 0.010 22 828 9P24 — CW ≤25 2 μ W 22 935 10P46 — CW ≤25 0.5 μ W 22 995 10R26 — CW ≤25 2 μ W 22 1041 10R36 — CW ≤25 2 μ W 22 C2 H4 (OH)2 (21) 62.5 10R16 — C <100 1–5 8 69.1 10R16 — C <100 1–5 8 70.1 9P34 ⊥ C <100 ≥10 8 75.2 9P32 — C <100 <1 8 77.4 10R16 — C <100 1–5 8 90.8 9P32 // C <100 <1 8 95.8 9R10 // C <100 5–10 8 109.1 9R16 — C <100 <1 8 117.1 9P14 // C <100 5–10 8 118 10P30 — C <100 <1 8 118 9P36 ⊥ C <100 1–5 8 118.9 9P34 // C <100 5–10 8 125.8 9P34 // C <100 1–5 8 132 9P24 ⊥ C <100 1–5 8 132 9P36 ⊥ C <100 1–5 8 135 9P36 ⊥ C <100 <1 8 164 9R10 ⊥ C <100 1–5 8 164 9P14 ⊥ C <100 1–5 8 164 9P16 ⊥ C <100 1–5 8 169 9P36 ⊥ C <100 <1 8 171 9R8 — C <100 <1 8 185 9R18 // C <100 <1 8 185 9P34 ⊥ C <100 1–5 8 189 9P34 ⊥ C <100 1–5 8 189 9P36 ⊥ C <100 1–5 8 192 9P38 ⊥ C <100 <1 8 197 9P38 ⊥ C <100 ≥10 8 200 9P36 // C <100 <1 8 231 9R10 // C <100 1–5 8 240 9R10 // C <100 1–5 8 250 9R18 // C <100 1–5 8 252 9P34 // C <100 <1 8 262 9P34 // C <100 1–5 8 277 9P38 // C <100 5–10 8 288 9P12 ⊥ C <100 <1 8 290 9P38 ⊥ C <100 1–5 8 299 9P34 // C <100 1–5 8 344 9P22 // C <100 <1 8 358 9P34 ⊥ C <100 <1 8 388 9P36 ⊥ C <100 <1 8 415 9P14 // C <100 1–5 8 696 9P34 ⊥ C <100 1–5 8 C2 H5 OH (22) 396 9P32 — CW ≤20 0.01 26 C2 H5 Cl (23) 900 10R30 — CW ≤40 0.1 26 1350 10R30 — CW ≤40 0.01 26 1400 10R38 — CW ≤40 — 26 1720 10R28 — CW ≤40 0.1 26 NH3 (24) 34.26 10P12 // T <300 kW Med 7 35.10 10P14 // T <300 kW Med 7 36.15 9P24 ⊥ T <300 kW Med 7 56.86 10P20 — T < 300 kW Wk 7 58.0 10R4 — T 1 MW <20 W 4 58.03 10R4 — T <300 kW St 7 64.70 9P24 // T <300 kW St 7 67.25 9R30 — T <300 kW St 7 72.6 10R6 — T 1 MW <20 W 4 74.18 10R6 ⊥ T <300 kW St 7 83.82 9R30 — T <300 kW Wk 7 88.90 9R30 // T <300 kW St 7 90.55 9R16 // T < 300 kW St 7 118.98 10R4 — T <300 kW Wk 7 147.04 9R30 — C 100–150 — 6 147.10 9R30 — T < 300 kW St 7 151 10P32 — T 2 MW 0.4 kW 17 151.81 10P32 ⊥ T <300 kW St 7 151.9 10P32 — T 1 MW <20 W 4 155.13 10R6 ⊥ T <300 kW Wk 7 216.38 10P6 // T <300 kW Med 7 225.33 10P4 // T <300 kW Med 7 256.67 10R14 ⊥ T <300 kW St 7 280.5 10R8 — T 1 MW <20 W 4 281.27 10R14 ⊥ T <300 kW Med 7 281.40 10R8 // T <300 kW St 7 290 10P32 — T 2 MW 0.8 kW 17 291 10R6 — T 2 MW 80 W 17 291.2 10R6 — T 1 MW <20 W 4 291.27 10P32 // T <300 kW Med 7 291.87 10R6 // T <300 kW St 7 311.67 10R4 — T < 300 kW St 7 388 9R30 — T <300 kW Wk 7 O3 (25) 121 9P14 — C 100–150 — 6 163.61 9P40 — C 100–150 — 6 171.5 9P30 C 100–150 6 D2 O (26) 50.5 9P32 — T 2 MW 2.8 W 17 66 9P32 — T 2 MW 28 kW 17 83 9P32 — T 2 MW 12 W 17 94 9R12 — T 2 MW 0.4 kW 17 114 9R12 — T 2 MW 0.12 kW 17 116 9R32 // T 10–20 MW 1 kW 18 119 9P32 // T 10–20 MW 1 kW 18 142 9R12 ⊥ T 10–20 MW 1 kW 18 263 9R34 // T 10–20 MW 1 kW 18 385 9R22 T 2 MW 0.36 kW 17 ⊥ T 10–20 MW 1 kW 18
λ (
μ m): (a) There is one entry for CH
3 Br for which the wavelength was not measured.
17 (b) Because of experimental error, various references may report different values for the same wavelength. Such reports have ordinarily been retained as multiple entries in the table.
CO
2 line: 9, 10, and 11 indicate the 9.6-
μ m, 10.6-
μ m, and 11.1-
μ m bands, respectively.
Pol.: The relative polarization of the SMM beam with respect to the CO
2 laser beam polarization is given. It is likely that all SMM laser beams are polarized,
37 but the polarization has not been measured in many instances.
CO
2 source:
CW = true cw laser or chopped laser with pulselength longer than 1 msec;
C = chopped laser with pulselength shorter than 1 msec;
Q =
Q -switched laser;
T = TEA laser.
W
in : CO
2 laser power is ordinarily listed in watts. kW = kilowatts; MW = megawatts.
mW
out : SMM laser output power is ordinarily listed in milliwatts.
μ W = microwatts, W = watts, kW = kilowatts. If only a qualitative output power is reported, this is given as St = strong, Med = medium, or Wk = weak.
Table III
Laser Wavelengths in Numerical Ordera ,b
λ(μ m) Gas index no. 34.26 24 35.10 24 36.15 24 37.5 8 40.2 8 41 10 41.7 8 43.4 8 50.5 26 56.86 24 57 9 58.0 24 58.03 24 58.1 8 62.5 21 64.70 24 65.1 8 65.6 8 66 26 67.25 24 69.1 21 70.1 21 70.6 8 72.6 24 74.18 24 75.2 21 77.4 21 78 8 80.3 8 83 26 83.82 24 88.90 24 90.55 24 90.8 21 94 26 95.8 21 96 8 96.48 8 98. 8 99.5 12 104 9,12 109.1 21 110 9 114 26 115.5 12 116 26 117 9 117.1 21 118 21,12 118.8 8 118.9 21 118.98 24 119 26 121 8,25 125.8 21 126 12 130 8 132 21 134 12 135 21 139 12 141 12 142 26 143 12 146 9 147 12 147.04 24 147.10 24 148.5 12 151 24 151.35 8 151.81 24 151.9 24 153. 12 155.13 24 159 12 162 8 163 8 163.01 8 163.61 25 163.9 8 164 21 164.0 8,12 164.3 8 165 8 166 12 168 12 169 21 170.6 8 171 21 171.5 25 175 12 176 12 177 12 180 12 183 12 184 10 185 21 185.5 8 186.03 8 189 21 190.3 1 190.8 8 191.2 8 191.57 8 191.63 8 192 21 192.78 1 193.2 8 193.8 8 194 12 195.0 1 197 21 198 12 198.0 12 198.8 8 199.14 1 200 21 200.3 1 201 12 202.4 8 205.3 8 206.6 5 208 12 211 8 215.3 1 216 9 216.38 24 217.1 5 218.0 12 219 12 223.5 8 225.33 24 226.9 5 227.15 13 229 10 229.39 16 231 21 232 8 232.93 8 233 8 236.25 13 237.6 8 240 21 240.98 13 242 8 242.79 8 243 8 243 12 245.04 14 246 8 249 8 250 21 250.4 13 251 8 251.3 12 251.91 1 252 21 253.6 8 254 13 254 8 254.1 8 254.5 16 254.80 16 255 10 256.67 24 258 17 261.03 13 262 13 263 26 263.7 8 264.0 5 264.05 14 264.6 8 264.7 5 267 12 268 12 270.6 18 271.29 13 273.7 13 274 8 275.00 13 275.09 13 277 21 278.5 16 278.61 16 278.8 8 279.81 14 280.5 24 281.18 11 281.27 24 281.40 24 281.67 13 281.98 11 282.3 5 286 8 286.79 13 286.88 11 288 12,21 288.5 19 290 21,24 291 24 291.2 24 291.27 24 291.87 24 292 8 292.2 8 292.5 8 294.28 14 295 9 299 10,21 302.08 16 303.0 16 303.54 11 307 9 307.65 13 309 16 309.23 16 311.0 16 311.07 14 311.10 14 311.20 14 311.21 14 311.45 16 311.67 24 312 10 314 12 319.48 16 330.2 5 332.86 14 333 13 333.15 14 333.96 13 334.82 16 334.91 16 336 5 336.3 16 336.7 5 339 10 342.74 16 344 21 346.32 11 347 12 349.34 13 352.75 14 354 13 358 21 359.81 16 362.1 5 364.5 13 368 16 369.1 8 372.68 1 372.87 11 373 11 375.0 7,19 376.0 5 377.45 15 378.0 5,15 378.57 13 379 3 380.02 14 380.71 11 385 26 386.0 20 386.41 11 387.31 11 388 16,21,24 388.39 11 390.53 15 392 11,16 392.3 8 392.48 15 393.5 16 393.6 16 393.62 16 394.2 16 396 22 397.51 1 397.6 13 401 16 403 16 404 5 404.1 16 405.0 5,16 405.5 5 405.55 16 405.75 16 406.0 10,16 407.72 14 413 16 414 16 414.98 14 415 19,21 417 8 417.8 8 418.31 14 418.51 16 419 1 419.5 16 419.55 16 420.0 16 420.26 16 421.0 16 422.14 11 422.78 14 424 20 427.04 11 427.89 6 428 16 428.87 6 430.55 11 432.50 16 433.0 16 433.10 16 435 16 437.6 16 437.70 16 441 16 441.15 11 445 20 445.21 16 445.81 16 446.75 16 447.0 16 447.17 15 447.5 15 447.58 16 451.9 8 451.903 1 451.924 1 453.41 11 456 11 457.25 15 458.0 4,19 458.43 16 458.6 16 459.18 15 460.51 16 461 7 461.20 13 462.92 5 464 4 464.3 19 466.25 11 469 8 470 8 471 8 477.87 15 480 7 480.01 11 486 5 487 20 488.88 6 489 18 492 7,16 493.28 16 494.74 11 495 7,8 496 16,11 496.072 1 496.105 1 502.2 5 503 18 504 5 507.7 20 508.37 15 508.48 14 510.16 11 511.90 13 512 16 512.88 16 513.2 16 516.77 6 517.33 15 518.83 16 519 5,20 520 7 523 19 525.32 15 529.28 15 530 16 531.06 14 531.08 6 532 20 533 4 534.5 16 534.8 16 538 20 540.9 5 541.113 1 541.147 1 542.99 15 545.21 14 545.39 14 550.0 18 554 19 554.4 19 561.41 11 563.13 6 564.68 14 566.44 6 568 19 568.81 13 570.5 8 574 20 574.4 18 576.17 15 577 16 578 18 578.90 15 580.52 16 582.0 16 583.77 6 583.87 15 584.0 18 585.72 14 586.6 18 593.32 5 595 1 595 5 603 20 620 5 620.4 5 623 18 627.34 8 631 18 631.93 14 632.00 14 634.4 20 638 20 639.73 15 647.89 6 649.59 6 652.68 11 653 11 658.53 14 660.70 14 663 19 663.3 19 670.0 16 670.99 15 675.29 6 694 8 696 21 699 20 699.5 8 704.53 11 707 20 713.72 11 715.40 14 719.30 15 722 18 738 18 741.62 11 743.0 16 745.0 16 749.29 14 749.36 14 755 4 757.41 6 761 16 775 18 785 16 793 18 798.55 6 828 18,20 831.13 14 851.9 5 853 5 854.41 11 870.80 13 884 19 890.0 19 890.1 19 900 23 910 18 925.52 14 935 20 940 18 943.97 13 958.25 13 968 13 990.0 19 990.51 14 995 20 1013 5 1014.89 11 1016.33 11 1020 19 1041 20 1063.29 15 1069 5 1086.89 11 1097.11 6 1156 18 1164.83 11 1174.87 6 1184 18 1217 8 1221.79 2 1253.67 15 1254.4 15 1310.38 14 1350 23 1351.78 11 1400 23 1546 5 1572.64 14 1720 23 1814.37 11 1886.87 13 1965.34 14
a The gases are indexed by numbers between 1 and 26 as listed in
Table I .
b In some instances in
Table II , the same wavelength value is obtained in a given gas with two different CO
2 pump transitions. Such wavelength values have been consolidated into one entry in Table III.