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Two-color Resonant Four-wave Mixing Spectroscopy of Highly Predissociated Levels in the à 2 A 1 State of CH 3 S Ching-Ping Liu, a Scott A. Reid, b and.

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Presentation on theme: "Two-color Resonant Four-wave Mixing Spectroscopy of Highly Predissociated Levels in the à 2 A 1 State of CH 3 S Ching-Ping Liu, a Scott A. Reid, b and."— Presentation transcript:

1 Two-color Resonant Four-wave Mixing Spectroscopy of Highly Predissociated Levels in the à 2 A 1 State of CH 3 S Ching-Ping Liu, a Scott A. Reid, b and Yuan-Pern Lee a,c a Department of Chemistry, National Tsing Hua University, Hsinchu, Taiwan b Department of Chemistry, Marquette University, Milwaukee, WI 53201-1881 c Department of Applied Chemistry, National Chiao Tung University, Hsinchu, Taiwan and Institute for Atomic and Molecular Sciences, Academia Sinica, Taipei, Taiwan 60 th International Symposium on Molecular Spectroscopy

2 Schematic PES along the C-S coordinate JCP 110, 805 (1999) Why CH 3 S?  Important atmospheric species, produced in oxidation of sulfur compounds  Model system for studies of predissociation  Previous studies of à state photochemistry have shown mode specificity, with C-S stretch a promoting mode (Lee, Miller, Neumark) Ambiguity remains regarding assignments.

3 LIF & DFWM spectra C.-P. Liu, Y. Matsuda, and Y.-P. Lee, J. Chem. Phys. 119, 12335 (2003). TC-RFWM

4 Spectral Assignments 3 n :2 1 3 n : 3 2 1 0 4 5 6 7 8 0 1 2 3 4 5 0 6 1 2 1 1 1 3 n :1 1 2 1 3 n : 0 2

5 0 2121 3131 3 3838 21332133 21312131 21372137 A 2A1A 2A1 X 2EX 2E TC-RFWM diagram of CH 3 S: Hole-burning scheme  4  1  3  2 YYYY YYXX YXXY YXYX 2 1 34 Polarization Geometries

6 TC-RFWM setup: Dye Laser #2 G-L PR Iris PMT Excimer laser P MC 532 nm Dye Laser #1

7 Spectral Simplification via TC-RFWM A B DFWM (3 3 ) Wave number / cm -1 TC-RFWM Spectra (Probe B): (J=9/2,7/2; K =0) 3434 0 3 0 3434 3

8 TC-RFWM Spectra: Probing Line B in 3 3 21342134 21352135 11311131 11321132 Wave number / cm -1 213321331  All progressions show an increase in linewidth with increasing quanta of 3  The TC-RFWM spectra confirm the 1 1 3 n progression and provide a precise value for 1  A new progression 1 1 2 1 3 n is identified

9 Illustration of mode specificity 1 21352135 11311131 21362136  The C-S stretch ( 3 ) is a clear promoting mode for dissociation

10  L =4.6(2) cm -1 Fitting procedure  We expect a Lorentzian squared lineshape for homogenously broadened transitions  To account for the laser linewidth, we fit the profiles to the square of a Voigt profile, with the Gaussian component fixed at the laser linewidth (~ 0.2 cm -1 )

11 Assignment Lifetimes (in ns, except as noted) Chiang & LeeMillerThis work 0 1130(70)1090(55)---- 3131 860(30)870(40)---- 3232 250(20)300(30)---- 2121 480(30)460(30)---- 3 72(30)  35 ---- 21312131 85(15)60(20)---- 3434 0.01   100.01   21322132 ---- 0.01   100.01   3535 ----1.5(3) ps1.55(14) ps 21332133 ---- 0.01   100.01   3636 ----0.4(1) ps0.48(10)ps 21342134 ----1.0(2) ps1.09(14) ps 3737 ----0.5(1) ps0.53(13)ps 1 ---- 0.01   21352135 ----0.4(1) ps0.35(6) ps 11311131 ---- 1.5(2) ps 21362136 ---- 0.09(5) ps 11321132 ---- 0.28(3) ps 112131112131 ---- 0.46(3) ps 112132112132 ---- 0.35(10)ps CH 3 S Lifetimes  Our data agrees well with FD measurements of Miller group  Linewidths correspond to lifetimes as short as ~ 100 fs, limited by S/N  At higher energies bias favors observation of longer lived states (fewer quanta of 3 )

12 Plot of lifetime vs. energy 3n3n 213n213n 113n113n 11213n11213n 3 4 5 6 7 3 4 5 6 0 1 2 0 1  The C-S stretch ( 3 ) is a clear promoting mode for dissociation

13 Ã 2A1Ã 2A1 modeExp. Calc (Scaled) 1 (a 1 ) 29403186 (2978) 2 (a 1 ) 10971240 (1159) 3 (a 1 ) 410439 (410) 4 (e) 3367 (3147) 5 (e) 1488 (1391) 6 (e) 746 (697) Ref.1, this work2 Vibrational Frequencies: Experiment vs. Theory 1 C.-P. Liu, Y. Matsuda, and Y.-P. Lee, J. Chem. Phys. 119, 12335 (2003). 2 Q. Cui and K. Morokuma, Chem. Phys. Lett. 263, 54 (1996).

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15 Summary We demonstrate the advantages of two-color resonant four-wave mixing in investigating highly predissociative levels of the à 2 A 1 state of CH 3 S. The spectral simplification afforded by the two-color method allowed accurate determination of band positions and homogeneous linewidths. The TC-RFWM spectra show pronounced mode specificity, with 3 a clear promoting mode for dissociation. The vibrational progressions 1 1 3 v and 1 1 2 1 3 v are assigned, and à 2 A 1 state vibrational frequencies 1, 2, and 3 determined

16 Acknowledgements National Science Council (Taiwan) ACS/PRF (SAR)


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