Philip Adams
Professor
Physics & Astronomy
Louisiana State University
United States of America
Biography
"Dr. Philip Adams is currently working as a Professor in the Department of Department of Physics & Astronomy , Louisiana State University , USA. His research interests includes study of correlations and non-equilibrium phenomena in two-dimensional elemental systems, such as high resistance Be films, and ultra-thin superconducting . He is serving as an editorial member and reviewer of several international reputed journals. Dr. Philip Adams is the member of many international affiliations. He has successfully completed his Administrative responsibilities. He has authored of many research articles/books related to study of correlations and non-equilibrium phenomena in two-dimensional elemental systems, such as high resistance Be films, and ultra-thin superconducting . "
Research Interest
Over the past few years we have focused our efforts on the study of correlations and non-equilibrium phenomena in two-dimensional elemental systems, such as high resistance Be films, and ultra-thin superconducting Be and Al films. One of the primary goals of our program is to investigate the transport and tunneling characteristics of these systems in high magnetic fields and low temperatures. Their behavior in such extreme environments gives insight into how low dimensionality, disorder, and correlations can give rise to exotic effects such state memory, reentrance, multifold magnetoresistance, non-equilibrium fluctuations, and quantum transitions. These issues continue to be at the forefront of condensed matter research and offer an important venue for the training undergraduates, graduate students, and K-12 science teachers.
Publications
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Adams, P & C Prestigiacomo, J. (2014). Asymmetric Avalanche Behavior in a Zeeman-Limited Superconductor. Journal of Physics: Conference Series. 568.
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C. Prestigiacomo, J & Adams, P. (2016). Non-equilibrium Dynamics in Zeeman-Limited Superconducting Al Films. Journal of Low Temperature Physics. 183.
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Khan, Mojammel & Karki, Amar & Samanta, T & Browne, D & Stadler, S & Vekhter, I & Pandey, Abhishek & Adams, P & Young, D & Teknowijoyo, S & Cho, Keely & Prozorov, Ruslan & Graf, D. (2016). Complex superconductivity in the noncentrosymmetric compound Re6Zr. Physical Review B. 94.