Sandra Troian

Sandra Marina Troian (born 1957)[1] is an American applied physicist known for her research on fluid dynamics, quasicrystals, surface science, thin films, microfluidics, and spacecraft micropropulsion. She is a professor of Applied Physics, Aeronautics, and Mechanical Engineering in the Division of Engineering and Applied Science of the California Institute of Technology (Caltech), and head of the Laboratory of Interfacial and Small Scale Transport in the Department of Applied Physics and Materials Science at Caltech.[2]

Research

The Thompson and Troian slip condition, a model for nonlinear flow of liquids at liquid-solid interfaces, is named for Troian's discovery of this model with physicist Peter Thompson, which they published in Nature in 1997.[3] Her research has also included methods for controlling microscopic fluid droplets using a combination of chemical patterns and temperature variations on surfaces, rather than by using microfluidic pumps, published in Nature in 2000.[4] In 2009, she found a model to explain the spontaneous growth of arrays of nanoscale pillars in polymer films placed between the surfaces of silicon wafers, allowing this phenomenon to be controlled and used for nanoscale construction.[5]

Education and career

Troian graduated from Harvard University in 1980. She completed her Ph.D. at Cornell University in 1987.[2] Her dissertation, Mean Field Theories of Icosahedral Quasicrytals, was supervised by N. David Mermin.[6]

After postdoctoral work at Exxon Research, and at the Collège de France working with Pierre-Gilles de Gennes, she returned to Exxon as a staff scientist.[7] She joined the faculty at Princeton University as an assistant professor of chemical engineering in 1993,[3][8][7] visited Caltech as a Moore Distinguished Scholar in 2004,[8] and moved to Caltech in 2006.[7]

Whistleblower suit

In 2014, Troian filed a whistleblower lawsuit against the Caltech administration, claiming that they retaliated against her for reporting to the federal authorities a case of suspected espionage by an Israeli postdoctoral researcher in her laboratory. The alleged retaliation included an investigation against her for academic misconduct over an incident in which she listed her pet cat Pucci as a coauthor on a paper, following a tradition of similar pet coauthorships by other well-known physicists.[9]

Recognition

Troian and her coauthor Anne Dussaud were the 1999 winners of the François Frenkiel Award for Fluid Mechanics of the American Physical Society (APS) Division of Fluid Dynamics.[10]

Troian was named a Fellow of the American Physical Society in 2005, after a nomination by the APS Division of Fluid Dynamics, "for pioneering theoretical, experimental and molecular simulation studies of micro-hydrodynamic flows".[8][11]

References

  1. Birth year from Library of Congress catalog entry, retrieved 2020-12-21
  2. "Sandra M. Troian", Faculty, Caltech Division of Engineering and Applied Science, retrieved 2020-12-21
  3. Gutin, JoAnn (November 3, 1997), "New natural law in fluid dynamics", Princeton Weekly Bulletin, retrieved 2020-12-21
  4. Schultz, Steven (May 8, 2000), Temperature variations move microdroplets, Princeton University, retrieved 2020-12-21
  5. "Caltech Scientists Solve Decade-Long Mystery of Nanopillar Formations", News, California Institute of Technology, October 22, 2009, retrieved 2020-12-21
  6. "Sandra M. Troian", Physics Tree, retrieved 2020-12-21
  7. "Keynote speakers", 5th Micro and Nano Flows Conference (MNF2016), September 2016, retrieved 2020-12-21
  8. Stevens, Ruth, "Troian named APS fellow", News, Princeton University, retrieved 2020-12-21
  9. Flaherty, Colleen (November 17, 2014), "Rocket Science Espionage? Whistle-blower suit alleges that Caltech let a suspected spy keep working at its Jet Propulsion Lab to protect a lucrative federal contract", Inside Higher Education
  10. "François Frenkiel Award for Fluid Mechanics", Prizes & Awards, American Physical Society, retrieved 2020-12-21
  11. "Fellows nominated in 2005 by the Division of Fluid Dynamics", APS Fellows archive, American Physical Society, retrieved 2020-12-21
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.