waveguide chirped-pulse fourier transform microwave spectra of 2-propanethiol bri gordon steven t....
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![Page 1: Waveguide Chirped-Pulse Fourier Transform Microwave Spectra of 2-Propanethiol Bri Gordon Steven T. Shipman New College of Florida](https://reader034.vdocument.in/reader034/viewer/2022051316/5697bfe41a28abf838cb5740/html5/thumbnails/1.jpg)
Waveguide Chirped-Pulse Fourier Transform Microwave Spectra of 2-Propanethiol
Bri Gordon
Steven T. Shipman
New College of Florida
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Astrochemistry of Alkylthiols
• Few organosulfur compounds have been observed in the ISM.
• Methanethiol has been observed in Sagittarius B2.*
*Linke, R.A.; Frerking, M. A.; Thaddeus, P.; Astrophysical Journal 234, L139 (1979).
• Larger alkylthiols may be present; existing fits should be extended in order to search for them in the ISM.
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Chirped-Pulse Spectrometer
1. Generate pulse
2. Amplify pulse
3. Send pulse to waveguide
4. Amplify molecular emission
5. Record, average emission in the time domain
6. Fourier transform the emission
Chirped Pulse
(Linear Frequency Sweep)
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1)
2)3)
4)
5), 6)
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Senior Thesis Research
Worked with three previously studied small alkylthiols.
High vapor pressures and strong dipoles:
• Ethanethiol
• 1-propanethiol
• 2-propanethiol
g-EtSH0 cm-1
g'-EtSH0 cm-1
t-EtSH213.3 cm-1
TG-1-PrSH0 cm-1
TG’-1-PrSH0 cm-1
TT-1-PrSH249.5 cm-1
t-2-PrSH0 cm-1
g-2-PrSH41.3 cm-1
g’-2-PrSH41.3 cm-1DFT B3LYP / 6-311++G(d,p)
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Tunneling interactions in EtSH
The thiol H-atom tunneling through the potential barrier
Thiol Potential Energy Scan in EtSH
*Nakagawa, J., Kuwada, K., Hayashi, M. Bull. Chem. Soc. Jpn. 49, 3420 (1976).
**DFT B3LYP/6-311++G(d,p)
• The tunneling induces symmetric and antisymmetric states.
• c - type transitions between these states are split by as much as 3.5 GHz.
trans
trans
gauche'
gauche
Previous* Ab Initio**
V2 -135 (27) -152.28 (18)V3 456.4 (20) 451.68 (17)
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Tunneling interactions in 2-PrSH
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trans transgauche' gauche
Thiol Potential Energy Scan in 2-PrSH
Previous* Ab Initio**V2 - 47.74 (14.4)
V3 657.54489.44 (13.4)
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*Griffiths, J. H. J. Mol.Spec., 56, 257 (1975).
b - type transitions between states show tunneling splitting
**DFT B3LYP/6-311++G(d,p)
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2-Propanethiol
1
- Experimental - Simulated trans - Simulated
gauche
964 peaks above the 3:1 signal to noise threshold
2 million averages, 7 mTorr, -20° C, 4 μs Fid (D) trans*
µa 1.75
µb 0.004
µc 0.38
µtot 1.80
(D) gauche*
µa 1.52
µb 0.70
µc 0.70
µtot 1.81
*DFT B3LYP / 6-311++G(d,p)
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2-Propanethiol
1
- Experimental - Simulated trans - Simulated
gauche
964 peaks above the 3:1 signal to noise threshold
2 million averages, 7 mTorr, -20° C, 4 μs Fid (D) trans*
µa 1.75
µb 0.004
µc 0.38
µtot 1.80
(D) gauche*
µa 1.52
µb 0.70
µc 0.70
µtot 1.81
*DFT B3LYP / 6-311++G(d,p)
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2-Propanethiol: trans Conformer Expanded View
1 - Experimental - Simulated trans
Previous* Current
Lines Fit 12 126Fit RMS (kHz) 50 69
Max J 4 80
*Griffiths, J. H.; J. Mol.Spec., 56, 257 (1975).
# of Lines
a – type 78
b – type -
c – type 48
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2-Propanethiol: gauche Conformer Expanded View
1
*Griffiths, J. H. ; J. Mol.Spec., 56, 257 (1975).
- Experimental - Simulated
gauche
Previous* Current
Lines Fit 55 265 Fit RMS (kHz) 50 112
Max J 5 42
# of Lines Max Splitting (MHz)
a – type 96 107.6b – type 73 1124.6c – type 96 91.7
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g-2-PrSH Splitting
Transition Frequency (MHz) Splitting (MHz)7 4 3 ← 7 3 4 (+ -) 22229.60
1050.017 4 3 ← 7 3 4 (- +) 23279.61
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gauche transAb
Initio*Current
Ab Initio*
Current
A (MHz) 7822.81 7873.82 (12) 7831.547892.410
(8)
B (MHz) 4417.69 4528.44 (11) 4319.544414.444
(7)
C (MHz) 3106.01 3172.567 (8) 3096.803158.072
(7)∆v
(MHz) - 562.259 (21) - -
Fa (MHz) - 60.321 (29) - -
Gc (MHz) - 8.19 (22) - -
Fc (MHz) - 145.33 (132) - -
DJ (kHz) 1.5 1.454 (35) 1.3 1.3 (fixed)DJK (kHz) 2.4 2.344 (62) 2.7 2.61 (12) DK (kHz) 2.6 2.97 (16) 2.4 2.77 (33)dJ (kHz) 0.44 0.453 (4) 0.37 0.366 (7)dK (kHz) 3.3 3.390 (47) 2.8 2.997 (92)ФKJ (HZ) - - - 0.0481 (7)
Lines Fit 265 126RMS (kHz)
112 69
Max J 42 80
g-2-PrSH Hamiltonian:H� = H�+++ H�-- + H�+- • H�++ = A+ Ĵ�a2 + B+Ĵ�b2 + C+Ĵ�c2• H�-- = A–Ĵ�a2 + B–Ĵ�b2 + C–Ĵ�c2 + ∆ν• H�+- = Fa (Ĵ�bĴ�c + Ĵ�cĴ�b) + Gc (iĴ�c) + Fc (Ĵ�aĴ�b + Ĵ�bĴ�a) * DFT B3LYP/6-311++G(d,p)
Results
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Conclusions and Future Work
• 391 (41%) of the 964 peaks have been assigned to the trans and gauche ground state normal species.
• Next spectra to fit are vibrationally excited states and 34S species
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Acknowledgments
• Professor Shipman• Ben Rooks• Maria Phillips• Christian Metzger• Ian Finneran• Ben Reinhold• New College of
Florida• The National Science
Foundation
This material is based upon work supported by the National Science Foundation Division of Chemistry under Grant No.1111101 (co-funded by MPS/CHE and the Division of Astronomical Sciences).
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The Galactic Centre and Sagittarius B2, from the European Southern Observatory http://www.eso.org/public/images/eso0924e/
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The Galactic Centre and Sagittarius B2, from the European Southern Observatory http://www.eso.org/public/images/eso0924e/
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Laboratory improvements: 18-26.5 GHz Spectrometer
• Our previous frequency range was 8.7 - 18.3 GHz
• A new circuit was built to extend it to 26.5 GHz (left).
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2-Propanethiol
1
964 peaks above the 3:1 signal to noise threshold
2 million averages, 7 mTorr, -20° C, 4 μs Fid