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六氟化硫(SF6)在电力、电子工业上有着广泛应用, 其同时是一种重要的温室气体. 研究含SF6的弱束缚复合物的光谱和结构对深入了解SF6和其他分子之间的相互作用具有重要意义. 本文利用基于量子级联激光器的直接吸收光谱技术, 测量了SF6/Ar/He混合气体在10.6 μm处的超声射流冷却红外光谱. 除了32SF6-Ar的平行和垂直振动谱带外, 还观测到一个新的复合物振动谱带. 这个新谱带被初步归属为32SF6-34SF6复合物的32SF6单元的振动激发, 也是一个垂直振动谱带. 对32SF6-Ar和32SF6-34SF6的垂直振动谱带进行了转动分析, 得到了精确的振动带心和转动常数等分子参数.
Sulfur hexafluoride (SF6) is widely used in the electrical and electronic industries. It is also an important green-house gas. The study of spectra and structures of weakly bound complexes containing SF6 is helpful to gain a deep understanding of the intermolecular interactions between SF6 and other atoms or molecules. The rotationally resolved spectrum of the perpendicular vibrational band of 32SF6-Ar in the 32SF6 v3 band region has been reported previously but the rotational analysis was not completed. In this work, this vibrational band of 32SF6-Ar is re-investigated. The jet-cooled rovibrational spectra of SF6/Ar/He gas mixtures are measured by a continuous-wave distributed feed-back quantum cascade laser (DFB-QCL) at 10.6 μm with a segmented- rapid-scan data acquisition scheme. The gas mixture (SF6∶Ar∶He = 0.12∶1∶100) is expanded into a cylinder vacuum chamber through a 0.8 mm pin-hole nozzle. The probe laser is reflected about 90 times by a pair of astigmatic mirrors inside the chamber. The observed spectrum is analyzed by the standard symmetric-top Hamiltonian with the program PGOPHER. When the resonance interaction between the l = $ \pm 1 $ levels in the double-degenerate excited vibrational state of 32SF6-Ar is considered, which was ignored in previous studies, a successful rotational analysis of the perpendicular vibrational band is conducted. The band-origin of the perpendicular band is determined to be v0 = 947.45300(58) cm–1 and the resonance interaction parameter is q = –0.002325(70) cm–1. A set of absorption lines close to the Q branch of the 32SF6 v3 band is tentatively assigned to the perpendicular vibrational band of 32SF6-34SF6 complex. This band is heavily overlapped by the monomer lines so that very few lines can be assigned. The band-origin of this band is estimated to be 948.1181(12) cm–1. These results will be useful for developing highly accurate intermolecular potential energy surfaces for SF6-Ar complex and SF6 dimer in the future. [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] -
参数 Ref. [15] This work 基态 A" 0.0874b 0.0874b B'' 0.022765(45) 0.022739(39) 平行谱带 v0 946.97950(48) 946.97987(46) A' 0.086804(85) 0.08726(11) B' 0.020733(36) 0.020739(31) 垂直谱带 v0 947.392c 947.45300(58) A' — 0.08844(12) B' — 0.023750(57) ξ — 0.6974(19) q — –0.002325(70) 注: a 括号中的数字为标准偏差, 与参数值的最后两位对齐; b 固定于从头计算得到的值; c RQ(J, 0)支的峰值位置. 
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J' K' J'' K'' Obs. freq. Cal. freq. vobs–vcal 5 0 6 0 946.6470 946.6470 0 4 0 5 0 946.7109 946.7125 –0.0016 3 0 4 0 946.7724 946.7740 –0.0016 2 0 3 0 946.8324 946.8314 0.0010 2 1 3 1 946.8326 946.8333 –0.0007 2 2 3 2 946.8393 946.8389 0.0005 1 0 2 0 946.8879 946.8849 0.0030 1 1 2 1 946.8882 946.8868 0.0015 3 3 3 3 946.9726 946.9726 0 2 2 2 2 946.9785 946.9753 0.0032 1 0 0 0 947.0217 947.0213 0.0004 2 0 1 0 947.0586 947.0588 –0.0003 2 1 1 1 947.0598 947.0607 –0.0009 3 0 2 0 947.0914 947.0923 –0.0009 3 1 2 1 947.0932 947.0942 –0.0010 4 0 3 0 947.1204 947.1218 –0.0014 4 1 3 1 947.1220 947.1236 –0.0017 4 2 3 2 947.1283 947.1292 –0.0009 4 3 3 3 947.1364 947.1385 –0.0021 5 0 4 0 947.1476 947.1473 0.0003 5 1 4 1 947.1479 947.1491 –0.0012 5 2 4 2 947.1557 947.1547 0.0010 6 0 5 0 947.1709 947.1687 0.0021 6 2 5 2 947.1768 947.1762 0.0006 7 0 6 0 947.1846 947.1862 –0.0016 7 2 6 2 947.1949 947.1936 0.0012 8 0 7 0 947.2007 947.1997 0.0010 3 1 4 2 947.2095 947.2096 –0.0001 3 1 4 0 947.2375 947.2385 –0.0010 2 1 3 2 947.2528 947.2520 0.0008 2 1 3 0 947.2719 947.2710 0.0010 1 1 2 2 947.2935 947.2935 0 1 1 2 0 947.3059 947.3077 –0.0019 3 1 3 0 947.3920 947.3925 –0.0005 4 0 4 1 947.3920 947.3917 0.0003 3 3 3 2 947.4224 947.4216 0.0007 4 3 4 2 947.4366 947.4367 –0.0001 1 1 0 0 947.4441 947.4442 0 2 1 1 0 947.5001 947.4983 0.0018 2 2 1 1 947.5002 947.4997 0.0005 3 3 2 2 947.5575 947.5581 –0.0006 3 1 2 0 947.5578 947.5569 0.0009 4 4 3 3 947.6189 947.6186 0.0003 4 1 3 0 947.6197 947.6197 0 5 4 4 3 947.6821 947.6825 –0.0004 5 3 4 2 947.6843 947.6846 –0.0004
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Parameter (32SF6)2b 32SF6-34SF6 A'' 0.04554(6) 0.04554c B'' 0.0083811(26) 0.0083811c $ {\nu }_{0}^{\perp } $ 956.09502(37) 948.1181(12) A' 0.04551(fixed) 0.04551c B' 0.0083803(28) 0.0083803c ξ (unitless) 0.66796(70) 0.66796c 注: a 括号中的数字为标准偏差, 与参数值的最后两位对齐; b 文献[9]; c 固定于(32SF6)2对应参数的值.
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J' K' J'' K'' Obs. freq. Cal. freq. vobs-vcal 3 2 4 3 947.9943 947.9876 0.0068 2 2 3 3 948.0101 948.0043 0.0058 4 1 5 0 948.0178 948.0110 0.0068 12 3 12 4 948.0422 948.0412 0.0010 11 2 11 3 948.0574 948.0545 0.0029 11 1 11 2 948.0665 948.0678 –0.0013 11 0 11 1 948.0803 948.0812 –0.0010 11 2 11 1 948.1048 948.1082 –0.0034 11 3 11 2 948.1132 948.1218 –0.0086 12 4 12 3 948.1283 948.1354 –0.0071 5 1 4 0 948.1766 948.1786 –0.0020
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[1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21]
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