Presentation is loading. Please wait.

Presentation is loading. Please wait.

by William T. S. Cole, James D. Farrell, David J. Wales, and Richard J

Published byIrwan Benny Sumadi Modified over 5 years ago

Similar presentations

Presentation on theme: "by William T. S. Cole, James D. Farrell, David J. Wales, and Richard J"— Presentation transcript:

1 Structure and torsional dynamics of the water octamer from THz laser spectroscopy near 215 μm
by William T. S. Cole, James D. Farrell, David J. Wales, and Richard J. Saykally Science Volume 352(6290): June 3, 2016 Published by AAAS

2 Fig. 1 The two lowest-energy structures predicted for the water octamer, viewed along the principal axes. The two lowest-energy structures predicted for the water octamer, viewed along the principal axes. Tentatively assigned low-frequency vibrational motions are also depicted. (A) The S4 structure, viewed along the long axis (middle), pictured with displacements along the normal mode on either side. (B) The corresponding D2d structure and displacements, viewed along the short axis. The D2d structure is predicted to be slightly lower in energy, whereas entropy favors the S4 structure (16). William T. S. Cole et al. Science 2016;352: Published by AAAS

3 Fig. 2 Experimental spectra.
Experimental spectra. (A) The full assigned spectrum is shown along with the 8 (out of 99) transitions that could not be assigned. (B) Typical example of an assigned K-progression of transitions calculated from the fitted constants for the S4 isomer. (C) Typical example of an assigned K-progression of transitions calculated from the fitted constants for the D2d isomer. Note the opposite-intensity variation with K in (B) and (C) above, which supports assignment of the two bands to prolate and oblate tops, respectively. The intensities of the assigned and calculated branches shown in (B) and (C) are normalized so that the most intense transition has a value of 1. The associated data are presented in tables S1 and S2. William T. S. Cole et al. Science 2016;352: Published by AAAS

4 Fig. 3 A measured absorption transition showing the characteristic second derivative line shape observed. A measured absorption transition showing the characteristic second derivative line shape observed. The full width at half-maximum linewidths are ~1 MHz. Tunneling splittings predicted in (8) are well below the experimental resolution, which is determined by the residual Doppler width in the planar supersonic expansion. William T. S. Cole et al. Science 2016;352: Published by AAAS

Download ppt "by William T. S. Cole, James D. Farrell, David J. Wales, and Richard J"

Similar presentations

Noise from Road and Railway Tunnels. Noise from the Tunnel Mouth New Object type tunnel opening available from SoundPLAN 7 Object is digitized using two.

Noise from Road and Railway Tunnels. Noise from the Tunnel Mouth New Object type tunnel opening available from SoundPLAN 7 Object is digitized using two.
High sensitivity CRDS of the a 1 ∆ g ←X 3 Σ − g band of oxygen near 1.27 μm: magnetic dipole and electric quadrupole transitions in different bands of.

High sensitivity CRDS of the a 1 ∆ g ←X 3 Σ − g band of oxygen near 1.27 μm: magnetic dipole and electric quadrupole transitions in different bands of.
1 THz vibration-rotation-tunneling (VRT) spectroscopy of the water (D 2 O) 3 trimer : --- the 2.94THz torsional band L. K. Takahashi, W. Lin, E. Lee, F.

1 THz vibration-rotation-tunneling (VRT) spectroscopy of the water (D 2 O) 3 trimer : --- the 2.94THz torsional band L. K. Takahashi, W. Lin, E. Lee, F.
Rotationally-resolved infrared spectroscopy of the polycyclic aromatic hydrocarbon pyrene (C 16 H 10 ) using a quantum cascade laser- based cavity ringdown.

Rotationally-resolved infrared spectroscopy of the polycyclic aromatic hydrocarbon pyrene (C 16 H 10 ) using a quantum cascade laser- based cavity ringdown.
Analysis of an 18 O and D enhanced lab water spectrum using variational calculations of HD 18 O and D 2 18 O spectra Michael J Down - University College.

Analysis of an 18 O and D enhanced lab water spectrum using variational calculations of HD 18 O and D 2 18 O spectra Michael J Down - University College.
Chemistry 6440 / 7440 Vibrational Frequency Calculations.

Chemistry 6440 / 7440 Vibrational Frequency Calculations.
WH04 NUMERICAL AND EXPERIMENTAL ASPECTS OF DATA ACQUISITION AND PROCESSING IN APPLICATION TO TEMPERATURE RESOLVED 3-D SUB-MILLIMETER SPECTROSCOPY FOR ASTROPHYSICS.

WH04 NUMERICAL AND EXPERIMENTAL ASPECTS OF DATA ACQUISITION AND PROCESSING IN APPLICATION TO TEMPERATURE RESOLVED 3-D SUB-MILLIMETER SPECTROSCOPY FOR ASTROPHYSICS.
Vibrational and Rotational Spectroscopy

Vibrational and Rotational Spectroscopy
Rovibronic Analysis of the State of the NO 3 Radical Henry Tran, Terrance J. Codd, Dmitry Melnik, Mourad Roudjane, and Terry A. Miller Laser Spectroscopy.

Rovibronic Analysis of the State of the NO 3 Radical Henry Tran, Terrance J. Codd, Dmitry Melnik, Mourad Roudjane, and Terry A. Miller Laser Spectroscopy.
Revisit vibrational Spectroscopy

Revisit vibrational Spectroscopy
Electronic spectroscopy of CHBr and CDBr Chong Tao, Calvin Mukarakate, Mihaela Deselnicu and Scott A. Reid Department of Chemistry, Marquette University.

Electronic spectroscopy of CHBr and CDBr Chong Tao, Calvin Mukarakate, Mihaela Deselnicu and Scott A. Reid Department of Chemistry, Marquette University.
Electronic Spectroscopy of DHPH Revisited: Potential Energy Surfaces along Different Low Frequency Coordinates Leonardo Alvarez-Valtierra and David W.

Electronic Spectroscopy of DHPH Revisited: Potential Energy Surfaces along Different Low Frequency Coordinates Leonardo Alvarez-Valtierra and David W.
Friday, June 21, 2013 68th OSU SYMPOSIUM MOLECULAR SPECTROSCOPY FB06: Cuisset & al Gas phase rovibrational spectroscopy of DMSO, Part II: « Towards a THz.

Friday, June 21, th OSU SYMPOSIUM MOLECULAR SPECTROSCOPY FB06: Cuisset & al Gas phase rovibrational spectroscopy of DMSO, Part II: « Towards a THz.
Precision Measurement of CO 2 Hotband Transition at 4.3  m Using a Hot Cell PEI-LING LUO, JYUN-YU TIAN, HSHAN-CHEN CHEN, Institute of Photonics Technologies,

Precision Measurement of CO 2 Hotband Transition at 4.3  m Using a Hot Cell PEI-LING LUO, JYUN-YU TIAN, HSHAN-CHEN CHEN, Institute of Photonics Technologies,
STRUCTURES OF TWO ISOMERS OF NITROUS OXIDE TETRAMER FROM THEIR INFRARED SPECTRA J. Norooz Oliaee, F. Mivehvar, M. Dehghany, N. Moazzen-Ahmadi Department.

STRUCTURES OF TWO ISOMERS OF NITROUS OXIDE TETRAMER FROM THEIR INFRARED SPECTRA J. Norooz Oliaee, F. Mivehvar, M. Dehghany, N. Moazzen-Ahmadi Department.
Slide # 1 Variation of PL with temperature and doping With increase in temperature: –Lattice spacing increases so bandgap reduces, peak shift to higher.

Slide # 1 Variation of PL with temperature and doping With increase in temperature: –Lattice spacing increases so bandgap reduces, peak shift to higher.
ULTRAHIGH-RESOLUTION SPECTROSCOPY OF DIBENZOFURAN S 1 ←S 0 TRANSITION SHUNJI KASAHARA 1, Michiru Yamawaki 1, and Masaaki Baba 2 1) Molecular Photoscience.

ULTRAHIGH-RESOLUTION SPECTROSCOPY OF DIBENZOFURAN S 1 ←S 0 TRANSITION SHUNJI KASAHARA 1, Michiru Yamawaki 1, and Masaaki Baba 2 1) Molecular Photoscience.
GLOBAL FIT ANALYSIS OF THE FOUR LOWEST VIBRATIONAL STATES OF ETHANE: THE 12  9 BAND L. Borvayeh and N. Moazzen-Ahmadi Department of Physics and Astronomy.

GLOBAL FIT ANALYSIS OF THE FOUR LOWEST VIBRATIONAL STATES OF ETHANE: THE 12  9 BAND L. Borvayeh and N. Moazzen-Ahmadi Department of Physics and Astronomy.
Rotationally-Resolved Spectroscopy of the Bending Modes of Deuterated Water Dimer JACOB T. STEWART AND BENJAMIN J. MCCALL DEPARTMENT OF CHEMISTRY, UNIVERSITY.

Rotationally-Resolved Spectroscopy of the Bending Modes of Deuterated Water Dimer JACOB T. STEWART AND BENJAMIN J. MCCALL DEPARTMENT OF CHEMISTRY, UNIVERSITY.
June 21, 2012 Submillimeter Spectrum of Chloromethane: Analysis of the V 3 =1 Excited State Presented by: Alissa Fisher Auburn University and U.S. Army.

June 21, 2012 Submillimeter Spectrum of Chloromethane: Analysis of the V 3 =1 Excited State Presented by: Alissa Fisher Auburn University and U.S. Army.

Similar presentations

Ads by Google