Kathryn Moler Explained

Kathryn A. Moler
Nationality:American
Fields:Physics
Workplaces:Stanford University
Alma Mater:Stanford University
Thesis Title:Specific Heat of Cuprate Superconductors
Thesis Url:https://searchworks.stanford.edu/view/3063590
Thesis Year:1995
Doctoral Advisor:Aharon Kapitulnik

Kathryn Ann Moler (born 1966) is an American physicist, and current dean of research at Stanford University.[1] She received her BSc (1988) and Ph.D. (1995) from Stanford University.[2] After working as a visiting scientist at IBM T.J. Watson Research Center in 1995, she held a postdoctoral position at Princeton University from 1995 to 1998. She joined the faculty of Stanford University in 1998, and became an Associate in CIFAR's Superconductivity Program (now called the Quantum Materials Program) in 2000. She became an associate professor (with tenure) at Stanford in 2002 and is currently a professor of applied physics and of Physics at Stanford. She currently works in the Geballe Laboratory for Advanced Materials (GLAM),[3] and is the director of the Center for Probing the Nanoscale (CPN),[4] a National Science Foundation-funded center where Stanford and IBM scientists continue to improve scanning probe methods for measuring, imaging, and controlling nanoscale phenomena.[5] She lists her scientific interests and main areas of research and experimentation as:

Career

Early in her career, with John Kirtley from IBM, their research demonstrated that one of the predictions of a popular theory for high-temperature superconductivity was inaccurate by a factor of 10.[6] In 2011 her research group placed two non-magnetic materials (complex oxides) together and discovered an unexpected result: The layer where the two materials meet has both magnetic and superconducting regions. These are two properties that are normally incompatible, since "superconducting materials, which conduct electricity with no resistance and 100 percent efficiency, normally expel any magnetic field that comes near them."[7] Exploration of this phenomenon will be aimed toward discovery of whether the properties co-exist uneasily, or this marks the discovery of an exotic new form of superconductivity that actively interacts with magnetism.

In May 2018, Moler was named vice provost and dean of research at Stanford University, effective September 1, 2018.[8]

Awards

Publications

Papers listed at Stanford

Notes and References

  1. News: Materials physicist Kathryn Moler named Stanford vice provost and dean of research Stanford News. University. Stanford. 2018-05-29. Stanford News. 2018-09-11. en-US.
  2. Web site: Kathy Moler Selected for 2010 Richtmyer Award . AAPT.org . 2013-01-22 . 2013-01-29.
  3. Web site: Welcome to the Geballe Laboratory . Stanford.edu . 1999-09-01 . 2013-01-29.
  4. Web site: Stanford Center for Probing the Nanoscale . Stanford.edu . 2013-01-29 . 2013-03-26 . https://web.archive.org/web/20130326051809/http://www.stanford.edu/group/cpn/ . dead .
  5. Web site: Vincent Caprio's blog » 2010 » January . Vincentcaprio.org . 2013-01-29.
  6. Web site: Poster Project, Biographies, Moler . Math.sunysb.edu . 2013-01-29.
  7. Web site: DOE Pulse . Ornl.gov . 2011-09-19 . 2013-01-29.
  8. News: Materials physicist Kathryn Moler named Stanford vice provost and dean of research Stanford News. University. Stanford. 2018-05-29. Stanford News. 2018-09-11. en-US.
  9. Web site: News from the National Academy of Sciences. 2021-04-26. 2021-07-04. Newly elected members and their affiliations at the time of election are: … Moler, Kathryn A.; vice provost, dean of research, and Marvin Chodorow Professor, department of applied physics, Stanford University, Stanford, Calif.., entry in member directory:Web site: Member Directory. 2021-07-04. National Academy of Sciences.
  10. Scanning Probe Manipulation of Magnetism at the LaAlO3/SrTiO3 Heterointerface . Nano Letters. 12. 8. 4055–9. 10.1021/nl301451e. 22769056. 2012. Kalisky. Beena. Bert. Julie A.. Bell. Christopher. Xie. Yanwu. Sato. Hiroki K.. Hosoda. Masayuki. Hikita. Yasuyuki. Hwang. Harold Y.. Moler. Kathryn A.. 2012NanoL..12.4055K.
  11. Kalisky. Beena. Bert. Julie A.. Klopfer. Brannon B.. Bell. Christopher. Sato. Hiroki K.. Hosoda. Masayuki. Hikita. Yasuyuki. Hwang. Harold Y.. Moler. Kathryn A.. 26 June 2012. Critical thickness for ferromagnetism in LaAlO3/SrTiO3 heterostructures. Nature Communications. 3. 1. 922. 10.1038/ncomms1931. 22735450. 1201.1063. 2012NatCo...3E.922K. 205313268.
  12. Scanning SQUID susceptometry of a paramagnetic superconductor . Physical Review B . 85 . 22 . 10.1103/PhysRevB.85.224518 . 2012 . Kirtley . J. R. . Kalisky . B. . Bert . J. A. . Bell . C. . Kim . M. . Hikita . Y. . Hwang . H. Y. . Ngai . J. H. . Segal . Y. . Walker . F. J. . Ahn . C. H. . Moler . K. A. . 224518 . 1204.3355 . 2012PhRvB..85v4518K . 37774143 .
  13. 1108.4933. Calculation of the effect of random superfluid density on the temperature dependence of the penetration depth . Physical Review B . 85 . 10 . 104529 . Lippman . Thomas M. . Moler . Kathryn A. . 2011 . 10.1103/PhysRevB.85.104529 . 2012PhRvB..85j4529L . 46734287 .
  14. Bert. Julie A.. Kalisky. Beena. Bell. Christopher. Kim. Minu. Hikita. Yasuyuki. Hwang. Harold Y.. Moler. Kathryn A.. October 2011. Direct imaging of the coexistence of ferromagnetism and superconductivity at the LaAlO3/SrTiO3 interface. Nature Physics. 7. 10. 767–771. 10.1038/nphys2079. 1108.3150. 2011NatPh...7..767B. 10809252.
  15. Web site: Behavior of vortices near twin boundaries in underdoped Ba(Fe1-xCox)2As2. osti.gov.
  16. https://arxiv.org/abs/1012.3436 Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2As2across the Superconducting Dome
  17. Web site: Stanford University Department of Applied Physics » Kathryn A. Moler . Stanford.edu . 2013-01-29 . 2012-11-05 . https://web.archive.org/web/20121105031002/http://www.stanford.edu/dept/app-physics/cgi-bin/person/moler-kathryn-a/ . dead .