William D. Gwinn
Affiliations: | Chemistry | University of California, Berkeley, Berkeley, CA, United States |
Area:
microwave spectroscopyWebsite:
http://content.cdlib.org/xtf/view?docId=hb1p30039g&doc.view=frames&chunk.id=div00022&toc.depth=1&toc.id=Google:
"William Dulaney Gwinn"Bio:
(1916 - 1997)
https://chemistry.berkeley.edu/news/william-dulaney-gwinn
https://www.gf.org/fellows/all-fellows/william-d-gwinn/
https://www2.chemistry.msu.edu/Genealogy/PID613.shtml
Mean distance: 8.11 (cluster 11) | S | N | B | C | P |
Parents
Sign in to add mentor| Kenneth S. Pitzer | grad student | 1942 | UC Berkeley | |
| (Rotation within molecules, including dichloro- and dibromoethane) | ||||
Children
Sign in to add trainee| Rollie John Myers | grad student | 1951 | UC Berkeley |
| George William Rathjens | grad student | 1951 | UC Berkeley |
| Albert Narath | grad student | 1959 | UC Berkeley (Physics Tree) |
| Sunney I. Chan | grad student | 1960 | UC Berkeley |
| Willis H. Flygare | grad student | 1961 | UC Berkeley |
| Richard A. Keller | grad student | 1961 | UC Berkeley |
| David O. Harris | grad student | 1965 | UC Berkeley |
| Alan C. Luntz | grad student | 1968 | UC Berkeley |
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Publications
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| Holian BL, Gwinn WD, Luntz AC, et al. (1973) Predictions of the solid helium phase diagram The Journal of Chemical Physics. 59: 5444-5454 |
| Engerholm GG, Luntz AC, Gwinn WD, et al. (1969) Ring puckering in five-membered rings. II. The microwave spectrum, dipole moment, and barrier to pseudorotation in tetrahydrofuran The Journal of Chemical Physics. 50: 2446-2457 |
| Harris DO, Engerholm GG, Tolman CA, et al. (1969) Ring puckering in five-membered rings. I. General theory The Journal of Chemical Physics. 50: 2438-2445 |
| Gwinn WD, Luntz AC, Sederholm CH, et al. (1968) On-line control, data collection, and reduction for chemical experiments at Berkeley Journal of Computational Physics. 2: 439-464 |
| Harris DO, Harrington HW, Luntz AC, et al. (1966) Microwave spectrum, vibration-rotation interaction, and potential function for the ring-puckering vibration of trimethylene sulfide The Journal of Chemical Physics. 44: 3467-3480 |
| Chan SI, Borgers TR, Russell JW, et al. (1966) Trimethylene oxide. III. Far-infrared spectrum and double-minimum vibration The Journal of Chemical Physics. 44: 1103-1111 |
| FlyGare WH, Gwinn WD. (1962) Electron distribution in the C - Cl bonds of CH2Cl2 and derivation of matrix elements off-diagonal in J for two quadrupolar nuclei in an asymmetric rotor The Journal of Chemical Physics. 36: 787-794 |
| Flygare WH, Narath A, Gwinn WD. (1962) Microwave spectrum, structure, quadrupole interaction, dipole moment, and bent C-Cl Bonds in 1,1-dichlorocyclopropane The Journal of Chemical Physics. 36: 200-208 |
| Chan SI, Zinn J, Gwinn WD. (1961) Trimethylene oxide. II. structure, vibration-rotation interaction, and origin of potential function for ring-puckering motion The Journal of Chemical Physics. 34: 1319-1329 |
| Chan SI, Zinn J, Fernandez J, et al. (1960) Trimethylene oxide. I. Microwave spectrum, dipole moment, and double minimum vibration The Journal of Chemical Physics. 33: 1643-1655 |